OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.3412E+11 [eV/cm2/s]
                                                             or : 5.3533E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 2.692E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.165E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.311E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.371E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.638E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.462E+00 [eV.cm-2.s-1] ("shsum").
  1.33061798E+09           2          21
  1.43030682E+09           2          23

 Total Heating :  6.023E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.083E+09      8.302E+07          0.000
              286.72     -2.245E+08      1.922E+08          0.000
              258.24     -3.375E+08      4.545E+08          0.000
              231.88      7.272E+17      1.087E+09          1.000
              207.62            NaN      2.548E+09          1.000
              185.47            NaN      5.624E+09          1.000
              165.43      7.324E+17      1.096E+10          1.000
              147.50      8.253E+07      1.648E+10       -198.745
              131.68      8.189E+07      1.490E+10       -181.001
              117.97      7.398E+06      9.433E+09      -1274.010
              106.37      7.238E+17      3.600E+09          1.000
               96.88      1.670E+04      1.186E+08      -7103.184
               89.49      2.786E+01      4.315E+05     -15490.406
               84.22      5.519E-03      7.680E+01     -13914.159
               81.05      1.342E-07      1.773E-03     -13208.089
               80.00      5.422E-10      3.774E-07       -694.990
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.5815846E-03
 entot depart   602294.50       602294.50    
 shsum :  1.72648858E+10  2.69152993E+11  2.69152387E+11  2.69152387E+11
 shsum :  1.74383903E+10  2.90800009E+11  2.16470303E+10  2.90799419E+11
 shsum :  1.75147991E+10  3.03913140E+11  1.31131228E+10  3.03912550E+11
 shsum :  1.80171735E+10  3.27624458E+11  2.37113160E+10  3.27623868E+11
 shsum :  1.80171735E+10  3.27624458E+11   56.380463      3.27623868E+11
 shsum :  1.80171735E+10  3.27624458E+11   2.4621701      3.27623868E+11
 fin  3.27624458E+11  1.80171735E+10   18.544758    
   18.184010    
 -3.67334124E+13   18.544758    
 ezero   0.0000000    
  3.27624458E+11
  1.98079764E+14

Total energy input of :3.341E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.276E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.276E+11)
                                           + heating (elhsum =6.023E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.54 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0429E+11 [eV/cm2/s]
                                                             or : 4.8753E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 2.427E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.001E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.224E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.267E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.499E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.427E+00 [eV.cm-2.s-1] ("shsum").
  1.29505037E+09           2          21
  1.39138061E+09           2          23

 Total Heating :  5.779E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.081E+09      8.141E+07          0.000
              286.72     -2.225E+08      1.880E+08          0.000
              258.24     -3.350E+08      4.433E+08          0.000
              231.88      7.272E+17      1.058E+09          1.000
              207.62            NaN      2.473E+09          1.000
              185.47            NaN      5.428E+09          1.000
              165.43      7.324E+17      1.042E+10          1.000
              147.50      9.663E+07      1.517E+10       -155.972
              131.68      7.749E+07      1.311E+10       -168.142
              117.97      6.459E+06      8.228E+09      -1272.902
              106.37      7.238E+17      2.813E+09          1.000
               96.88      1.131E+04      6.994E+07      -6182.665
               89.49      1.522E+01      1.970E+05     -12942.657
               84.22      1.426E-03      1.535E+01     -10764.387
               81.05      1.234E-08      1.261E-04     -10217.801
               80.00      2.234E-13      5.053E-12        -21.622
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2647021E-03
 entot depart   577888.00       577888.00    
 shsum :  1.56752835E+10  2.42727010E+11  2.42726437E+11  2.42726437E+11
 shsum :  1.58367887E+10  2.62733988E+11  2.00069755E+10  2.62733414E+11
 shsum :  1.59088445E+10  2.74976866E+11  1.22428846E+10  2.74976309E+11
 shsum :  1.63920957E+10  2.97642721E+11  2.26658529E+10  2.97642164E+11
 shsum :  1.63920957E+10  2.97642721E+11   54.992355      2.97642164E+11
 shsum :  1.63920957E+10  2.97642721E+11   2.4266536      2.97642164E+11
 fin  2.97642721E+11  1.63920957E+10   18.563059    
   18.157698    
 -4.03750875E+13   18.563059    
 ezero   0.0000000    
  2.97642721E+11
  2.17502328E+14

Total energy input of :3.043E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.976E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.976E+11)
                                           + heating (elhsum =5.779E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7221E+11 [eV/cm2/s]
                                                             or : 4.3614E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 2.145E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.821E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.128E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.146E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.334E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.384E+00 [eV.cm-2.s-1] ("shsum").
  1.25216371E+09           2          21
  1.34456064E+09           2          23

 Total Heating :  5.490E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.080E+09      7.963E+07          0.000
              286.72     -2.204E+08      1.833E+08          0.000
              258.24     -3.324E+08      4.309E+08          0.000
              231.88      7.272E+17      1.026E+09          1.000
              207.62            NaN      2.388E+09          1.000
              185.47            NaN      5.205E+09          1.000
              165.43      7.324E+17      9.813E+09          1.000
              147.50      1.132E+08      1.367E+10       -119.743
              131.68      7.108E+07      1.121E+10       -156.691
              117.97      5.488E+06      6.938E+09      -1263.264
              106.37      7.238E+17      2.051E+09          1.000
               96.88      6.786E+03      3.628E+07      -5345.885
               89.49      6.873E+00      7.051E+04     -10256.996
               84.22      2.333E-04      1.819E+00      -7793.756
               81.05      5.197E-10      3.410E-06      -6560.470
               80.00      6.510E-20      1.510E-18        -22.189
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9185141E-03
 entot depart   548959.94       548959.94    
 shsum :  1.39705948E+10  2.14464168E+11  2.14463611E+11  2.14463611E+11
 shsum :  1.41189898E+10  2.32676229E+11  1.82120673E+10  2.32675672E+11
 shsum :  1.41862287E+10  2.43955630E+11  1.12794010E+10  2.43955073E+11
 shsum :  1.46473728E+10  2.65417081E+11  2.14614548E+10  2.65416524E+11
 shsum :  1.46473728E+10  2.65417081E+11   53.343224      2.65416524E+11
 shsum :  1.46473728E+10  2.65417081E+11   2.3837337      2.65416524E+11
 fin  2.65417081E+11  1.46473728E+10   18.584274    
   18.120457    
 -4.51843688E+13   18.584274    
 ezero   0.0000000    
  2.65417081E+11
  2.43132260E+14

Total energy input of :2.722E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.654E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.654E+11)
                                           + heating (elhsum =5.490E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude   0.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3822E+11 [eV/cm2/s]
                                                             or : 3.8167E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.847E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.627E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.022E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.008E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.138E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.332E+00 [eV.cm-2.s-1] ("shsum").
  1.19999437E+09           2          21
  1.28777293E+09           2          23

 Total Heating :  5.146E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.078E+09      7.763E+07          0.000
              286.72     -2.182E+08      1.781E+08          0.000
              258.24     -3.298E+08      4.173E+08          0.000
              231.88      7.272E+17      9.905E+08          1.000
              207.62            NaN      2.295E+09          1.000
              185.47            NaN      4.952E+09          1.000
              165.43      7.324E+17      9.102E+09          1.000
              147.50      1.316E+08      1.197E+10        -89.987
              131.68      6.222E+07      9.250E+09       -147.676
              117.97      4.551E+06      5.614E+09      -1232.559
              106.37      7.238E+17      1.334E+09          1.000
               96.88      3.513E+03      1.627E+07      -4630.500
               89.49      2.370E+00      1.802E+04      -7601.196
               84.22      2.019E-05      1.043E-01      -5165.244
               81.05      4.127E-13      8.696E-11       -209.723
               80.00      1.049E-24      2.492E-23        -22.765
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5444025E-03
 entot depart   514636.03       514636.03    
 shsum :  1.21708646E+10  1.84708071E+11  1.84707564E+11  1.84707564E+11
 shsum :  1.23050916E+10  2.00980152E+11  1.62720788E+10  2.00979644E+11
 shsum :  1.23670231E+10  2.11198886E+11  1.02187336E+10  2.11198378E+11
 shsum :  1.28026726E+10  2.31277904E+11  2.00790159E+10  2.31277396E+11
 shsum :  1.28026726E+10  2.31277904E+11   51.375492      2.31277396E+11
 shsum :  1.28026726E+10  2.31277904E+11   2.3315158      2.31277396E+11
 fin  2.31277904E+11  1.28026726E+10   18.606943    
   18.064814    
 -5.16948513E+13   18.606943    
 ezero   0.0000000    
  2.31277904E+11
  2.77825613E+14

Total energy input of :2.382E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.313E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.313E+11)
                                           + heating (elhsum =5.146E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.3284E+11 [eV/cm2/s]
                                                             or : 5.3328E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          113

 MAIN : Total energy deposition in [CO2] is 2.680E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.158E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.308E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.366E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.641E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.463E+00 [eV.cm-2.s-1] ("shsum").
  1.33540134E+09           2          21
  1.43589120E+09           2          23

 Total Heating :  6.023E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.084E+09      8.410E+07          0.000
              286.72     -2.265E+08      1.948E+08          0.000
              258.24     -3.397E+08      4.604E+08          0.000
              231.88      7.272E+17      1.099E+09          1.000
              207.62            NaN      2.567E+09          1.000
              185.47            NaN      5.644E+09          1.000
              165.43      7.324E+17      1.094E+10          1.000
              147.50      8.366E+07      1.638E+10       -194.835
              131.68      8.143E+07      1.479E+10       -180.659
              117.97      7.351E+06      9.379E+09      -1274.790
              106.37      7.238E+17      3.564E+09          1.000
               96.88      1.638E+04      1.157E+08      -7061.609
               89.49      2.708E+01      4.167E+05     -15386.223
               84.22      5.216E-03      7.183E+01     -13770.651
               81.05      1.219E-07      1.594E-03     -13075.779
               80.00      4.776E-10      3.319E-07       -693.832
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.5678574E-03
 entot depart   602332.56       602332.56    
 shsum :  1.71965338E+10  2.68015272E+11  2.68014666E+11  2.68014666E+11
 shsum :  1.73695201E+10  2.89591198E+11  2.15759380E+10  2.89590608E+11
 shsum :  1.74457426E+10  3.02667006E+11  1.30758001E+10  3.02666416E+11
 shsum :  1.79471872E+10  3.26329074E+11  2.36620800E+10  3.26328484E+11
 shsum :  1.79471872E+10  3.26329074E+11   56.411972      3.26328484E+11
 shsum :  1.79471872E+10  3.26329074E+11   2.4631019      3.26328484E+11
 fin  3.26329074E+11  1.79471872E+10   18.545595    
   18.182741    
 -3.68766563E+13   18.545595    
 ezero   0.0000000    
  3.26329074E+11
  1.98843228E+14

Total energy input of :3.328E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.263E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.263E+11)
                                           + heating (elhsum =6.023E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0313E+11 [eV/cm2/s]
                                                             or : 4.8567E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.417E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.994E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.221E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.262E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.502E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.427E+00 [eV.cm-2.s-1] ("shsum").
  1.29951821E+09           2          21
  1.39661184E+09           2          23

 Total Heating :  5.779E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.083E+09      8.245E+07          0.000
              286.72     -2.245E+08      1.905E+08          0.000
              258.24     -3.372E+08      4.490E+08          0.000
              231.88      7.272E+17      1.070E+09          1.000
              207.62            NaN      2.492E+09          1.000
              185.47            NaN      5.447E+09          1.000
              165.43      7.324E+17      1.041E+10          1.000
              147.50      9.767E+07      1.507E+10       -153.319
              131.68      7.697E+07      1.301E+10       -167.975
              117.97      6.416E+06      8.179E+09      -1273.725
              106.37      7.238E+17      2.782E+09          1.000
               96.88      1.108E+04      6.815E+07      -6152.309
               89.49      1.477E+01      1.897E+05     -12846.964
               84.22      1.340E-03      1.427E+01     -10651.541
               81.05      1.112E-08      1.124E-04     -10111.637
               80.00      3.836E-15      8.805E-14        -21.954
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2523211E-03
 entot depart   577856.50       577856.50    
 shsum :  1.56134502E+10  2.41699258E+11  2.41698685E+11  2.41698685E+11
 shsum :  1.57744865E+10  2.61641896E+11  1.99426314E+10  2.61641322E+11
 shsum :  1.58463683E+10  2.73849762E+11  1.22078669E+10  2.73849188E+11
 shsum :  1.63287327E+10  2.96468709E+11  2.26189455E+10  2.96468120E+11
 shsum :  1.63287327E+10  2.96468709E+11   55.018196      2.96468120E+11
 shsum :  1.63287327E+10  2.96468709E+11   2.4274204      2.96468120E+11
 fin  2.96468709E+11  1.63287327E+10   18.563904    
   18.156260    
 -4.05317616E+13   18.563904    
 ezero   0.0000000    
  2.96468709E+11
  2.18336391E+14

Total energy input of :3.031E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.965E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.965E+11)
                                           + heating (elhsum =5.779E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7118E+11 [eV/cm2/s]
                                                             or : 4.3449E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.136E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.815E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.125E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.142E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.336E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.384E+00 [eV.cm-2.s-1] ("shsum").
  1.25615603E+09           2          21
  1.34925581E+09           2          23

 Total Heating :  5.488E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.081E+09      8.058E+07          0.000
              286.72     -2.222E+08      1.856E+08          0.000
              258.24     -3.345E+08      4.363E+08          0.000
              231.88      7.272E+17      1.037E+09          1.000
              207.62            NaN      2.407E+09          1.000
              185.47            NaN      5.222E+09          1.000
              165.43      7.324E+17      9.794E+09          1.000
              147.50      1.140E+08      1.358E+10       -118.096
              131.68      7.054E+07      1.112E+10       -156.670
              117.97      5.452E+06      6.896E+09      -1263.962
              106.37      7.238E+17      2.025E+09          1.000
               96.88      6.637E+03      3.533E+07      -5322.043
               89.49      6.650E+00      6.767E+04     -10175.152
               84.22      2.177E-04      1.678E+00      -7707.009
               81.05      4.620E-10      3.001E-06      -6494.100
               80.00      5.731E-20      1.329E-18        -22.186
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9075832E-03
 entot depart   548848.38       548848.38    
 shsum :  1.39159583E+10  2.13559640E+11  2.13559099E+11  2.13559099E+11
 shsum :  1.40639396E+10  2.31714537E+11  1.81549015E+10  2.31713997E+11
 shsum :  1.41310198E+10  2.42961760E+11  1.12472279E+10  2.42961220E+11
 shsum :  1.45913303E+10  2.64379204E+11  2.14174474E+10  2.64378663E+11
 shsum :  1.45913303E+10  2.64379204E+11   53.361794      2.64378663E+11
 shsum :  1.45913303E+10  2.64379204E+11   2.3842940      2.64378663E+11
 fin  2.64379204E+11  1.45913303E+10   18.585230    
   18.118923    
 -4.53579123E+13   18.585230    
 ezero   0.0000000    
  2.64379204E+11
  2.44053547E+14

Total energy input of :2.712E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.644E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.644E+11)
                                           + heating (elhsum =5.488E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude   5.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3733E+11 [eV/cm2/s]
                                                             or : 3.8025E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          103

 MAIN : Total energy deposition in [CO2] is 1.839E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.622E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.019E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.004E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.138E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.332E+00 [eV.cm-2.s-1] ("shsum").
  1.20337203E+09           2          21
  1.29176563E+09           2          23

 Total Heating :  5.144E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.080E+09      7.849E+07          0.000
              286.72     -2.200E+08      1.802E+08          0.000
              258.24     -3.318E+08      4.222E+08          0.000
              231.88      7.272E+17      1.000E+09          1.000
              207.62            NaN      2.311E+09          1.000
              185.47            NaN      4.966E+09          1.000
              165.43      7.324E+17      9.081E+09          1.000
              147.50      1.322E+08      1.189E+10        -88.979
              131.68      6.169E+07      9.180E+09       -147.800
              117.97      4.523E+06      5.578E+09      -1232.106
              106.37      7.238E+17      1.315E+09          1.000
               96.88      3.431E+03      1.584E+07      -4616.473
               89.49      2.284E+00      1.721E+04      -7533.834
               84.22      1.867E-05      9.527E-02      -5102.599
               81.05      3.648E-13      7.687E-11       -209.708
               80.00      9.279E-25      2.204E-23        -22.758
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5346684E-03
 entot depart   514419.41       514419.41    
 shsum :  1.21237586E+10  1.83929864E+11  1.83929356E+11  1.83929356E+11
 shsum :  1.22576169E+10  2.00151155E+11  1.62212905E+10  2.00150647E+11
 shsum :  1.23194030E+10  2.10340725E+11  1.01895660E+10  2.10340217E+11
 shsum :  1.27542589E+10  2.30378045E+11  2.00373248E+10  2.30377538E+11
 shsum :  1.27542589E+10  2.30378045E+11   51.384937      2.30377538E+11
 shsum :  1.27542589E+10  2.30378045E+11   2.3318069      2.30377538E+11
 fin  2.30378045E+11  1.27542589E+10   18.607721    
   18.062832    
 -5.18910818E+13   18.607721    
 ezero   0.0000000    
  2.30378045E+11
  2.78868552E+14

Total energy input of :2.373E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.304E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.304E+11)
                                           + heating (elhsum =5.144E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2909E+11 [eV/cm2/s]
                                                             or : 5.2727E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          105

 MAIN : Total energy deposition in [CO2] is 2.647E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.137E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.297E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.353E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.633E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.461E+00 [eV.cm-2.s-1] ("shsum").
  1.33743488E+09           2          21
  1.43847910E+09           2          23

 Total Heating :  6.003E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.086E+09      8.506E+07          0.000
              286.72     -2.284E+08      1.971E+08          0.000
              258.24     -3.418E+08      4.656E+08          0.000
              231.88      7.272E+17      1.109E+09          1.000
              207.62            NaN      2.583E+09          1.000
              185.47            NaN      5.652E+09          1.000
              165.43      7.324E+17      1.089E+10          1.000
              147.50      8.614E+07      1.618E+10       -186.826
              131.68      8.052E+07      1.452E+10       -179.375
              117.97      7.219E+06      9.216E+09      -1275.583
              106.37      7.238E+17      3.455E+09          1.000
               96.88      1.553E+04      1.079E+08      -6943.565
               89.49      2.502E+01      3.771E+05     -15071.182
               84.22      4.411E-03      5.893E+01     -13358.489
               81.05      9.134E-08      1.158E-03     -12682.147
               80.00      3.257E-10      2.254E-07       -691.131
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.5281397E-03
 entot depart   600330.13       600330.13    
 shsum :  1.69966264E+10  2.64689730E+11  2.64689123E+11  2.64689123E+11
 shsum :  1.71681075E+10  2.86059954E+11  2.13702328E+10  2.86059364E+11
 shsum :  1.72437893E+10  2.99027366E+11  1.29673974E+10  2.99026776E+11
 shsum :  1.77427784E+10  3.22556428E+11  2.35290644E+10  3.22555838E+11
 shsum :  1.77427784E+10  3.22556428E+11   56.325783      3.22555838E+11
 shsum :  1.77427784E+10  3.22556428E+11   2.4609623      3.22555838E+11
 fin  3.22556428E+11  1.77427784E+10   18.548010    
   18.179590    
 -3.73015016E+13   18.548010    
 ezero   0.0000000    
  3.22556428E+11
  2.01107851E+14

Total energy input of :3.291E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.226E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.226E+11)
                                           + heating (elhsum =6.003E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9970E+11 [eV/cm2/s]
                                                             or : 4.8017E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.387E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.975E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.211E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.249E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.493E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.425E+00 [eV.cm-2.s-1] ("shsum").
  1.30119040E+09           2          21
  1.39879910E+09           2          23

 Total Heating :  5.758E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.084E+09      8.338E+07          0.000
              286.72     -2.263E+08      1.927E+08          0.000
              258.24     -3.393E+08      4.541E+08          0.000
              231.88      7.272E+17      1.080E+09          1.000
              207.62            NaN      2.507E+09          1.000
              185.47            NaN      5.454E+09          1.000
              165.43      7.324E+17      1.036E+10          1.000
              147.50      9.999E+07      1.488E+10       -147.777
              131.68      7.592E+07      1.277E+10       -167.151
              117.97      6.290E+06      8.034E+09      -1276.282
              106.37      7.238E+17      2.690E+09          1.000
               96.88      1.046E+04      6.340E+07      -6060.644
               89.49      1.357E+01      1.704E+05     -12558.601
               84.22      1.115E-03      1.150E+01     -10315.827
               81.05      8.105E-09      7.936E-05      -9790.077
               80.00      2.602E-15      5.973E-14        -21.953
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2155255E-03
 entot depart   575796.38       575796.38    
 shsum :  1.54312294E+10  2.38670152E+11  2.38669578E+11  2.38669578E+11
 shsum :  1.55908721E+10  2.58422079E+11  1.97519360E+10  2.58421522E+11
 shsum :  1.56622449E+10  2.70528152E+11  1.21060751E+10  2.70527594E+11
 shsum :  1.61422162E+10  2.93017944E+11  2.24897843E+10  2.93017387E+11
 shsum :  1.61422162E+10  2.93017944E+11   54.927116      2.93017387E+11
 shsum :  1.61422162E+10  2.93017944E+11   2.4250894      2.93017387E+11
 fin  2.93017944E+11  1.61422162E+10   18.566046    
   18.152275    
 -4.10000892E+13   18.566046    
 ezero   0.0000000    
  2.93017944E+11
  2.20833729E+14

Total energy input of :2.997E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.930E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.930E+11)
                                           + heating (elhsum =5.758E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6814E+11 [eV/cm2/s]
                                                             or : 4.2961E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           68

 MAIN : Total energy deposition in [CO2] is 2.109E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.798E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.115E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.130E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.326E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.382E+00 [eV.cm-2.s-1] ("shsum").
  1.25729446E+09           2          21
  1.35084685E+09           2          23

 Total Heating :  5.467E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.083E+09      8.145E+07          0.000
              286.72     -2.240E+08      1.877E+08          0.000
              258.24     -3.366E+08      4.410E+08          0.000
              231.88      7.272E+17      1.046E+09          1.000
              207.62            NaN      2.421E+09          1.000
              185.47            NaN      5.228E+09          1.000
              165.43      7.324E+17      9.739E+09          1.000
              147.50      1.160E+08      1.339E+10       -114.444
              131.68      6.942E+07      1.091E+10       -156.210
              117.97      5.350E+06      6.771E+09      -1264.704
              106.37      7.238E+17      1.952E+09          1.000
               96.88      6.241E+03      3.281E+07      -5256.338
               89.49      6.060E+00      6.016E+04      -9926.640
               84.22      1.774E-04      1.321E+00      -7447.379
               81.05      3.243E-10      2.042E-06      -6295.152
               80.00      3.903E-20      9.048E-19        -22.183
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.8747140E-03
 entot depart   546738.63       546738.63    
 shsum :  1.37544786E+10  2.10882347E+11  2.10881806E+11  2.10881806E+11
 shsum :  1.39012147E+10  2.28866458E+11  1.79841147E+10  2.28865917E+11
 shsum :  1.39678269E+10  2.40019833E+11  1.11533824E+10  2.40019292E+11
 shsum :  1.44258642E+10  2.61314871E+11  2.12950446E+10  2.61314331E+11
 shsum :  1.44258642E+10  2.61314871E+11   53.264732      2.61314331E+11
 shsum :  1.44258642E+10  2.61314871E+11   2.3817532      2.61314331E+11
 fin  2.61314871E+11  1.44258642E+10   18.587351    
   18.114330    
 -4.58781738E+13   18.587351    
 ezero   0.0000000    
  2.61314871E+11
  2.46824691E+14

Total energy input of :2.681E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.613E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.613E+11)
                                           + heating (elhsum =5.467E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  10.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3469E+11 [eV/cm2/s]
                                                             or : 3.7603E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.816E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.607E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.010E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.992E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.128E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.329E+00 [eV.cm-2.s-1] ("shsum").
  1.20382438E+09           2          21
  1.29258432E+09           2          23

 Total Heating :  5.123E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.081E+09      7.926E+07          0.000
              286.72     -2.216E+08      1.821E+08          0.000
              258.24     -3.338E+08      4.264E+08          0.000
              231.88      7.272E+17      1.009E+09          1.000
              207.62            NaN      2.323E+09          1.000
              185.47            NaN      4.969E+09          1.000
              165.43      7.324E+17      9.024E+09          1.000
              147.50      1.337E+08      1.172E+10        -86.665
              131.68      6.057E+07      9.008E+09       -147.720
              117.97      4.446E+06      5.473E+09      -1230.051
              106.37      7.238E+17      1.263E+09          1.000
               96.88      3.215E+03      1.470E+07      -4570.811
               89.49      2.057E+00      1.509E+04      -7334.774
               84.22      1.478E-05      7.273E-02      -4919.132
               81.05      2.520E-13      5.308E-11       -209.672
               80.00      6.406E-25      1.521E-23        -22.746
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5055284E-03
 entot depart   512258.09       512258.09    
 shsum :  1.19845294E+10  1.81632303E+11  1.81631795E+11  1.81631795E+11
 shsum :  1.21172849E+10  1.97702091E+11  1.60697887E+10  1.97701583E+11
 shsum :  1.21786470E+10  2.07806808E+11  1.01047153E+10  2.07806300E+11
 shsum :  1.26113382E+10  2.27728196E+11  1.99213875E+10  2.27727688E+11
 shsum :  1.26113382E+10  2.27728196E+11   51.280960      2.27727688E+11
 shsum :  1.26113382E+10  2.27728196E+11   2.3290060      2.27727688E+11
 fin  2.27728196E+11  1.26113382E+10   18.609758    
   18.057417    
 -5.24791484E+13   18.609758    
 ezero   0.0000000    
  2.27728196E+11
  2.81998023E+14

Total energy input of :2.347E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.277E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.277E+11)
                                           + heating (elhsum =5.123E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2287E+11 [eV/cm2/s]
                                                             or : 5.1731E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.592E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.103E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.279E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.331E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.612E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.456E+00 [eV.cm-2.s-1] ("shsum").
  1.33658035E+09           2          21
  1.43791155E+09           2          23

 Total Heating :  5.962E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.087E+09      8.590E+07          0.000
              286.72     -2.302E+08      1.991E+08          0.000
              258.24     -3.438E+08      4.701E+08          0.000
              231.88      7.272E+17      1.118E+09          1.000
              207.62            NaN      2.594E+09          1.000
              185.47            NaN      5.647E+09          1.000
              165.43      7.324E+17      1.080E+10          1.000
              147.50      8.991E+07      1.587E+10       -175.500
              131.68      7.907E+07      1.410E+10       -177.334
              117.97      7.062E+06      8.947E+09      -1265.939
              106.37      7.238E+17      3.277E+09          1.000
               96.88      1.421E+04      9.597E+07      -6753.693
               89.49      2.191E+01      3.187E+05     -14543.934
               84.22      3.320E-03      4.211E+01     -12682.395
               81.05      5.583E-08      6.724E-04     -12043.512
               80.00      1.696E-10      1.165E-07       -686.225
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.4622873E-03
 entot depart   596220.25       596220.25    
 shsum :  1.66650634E+10  2.59172499E+11  2.59171910E+11  2.59171910E+11
 shsum :  1.68340511E+10  2.80201658E+11  2.10291651E+10  2.80201069E+11
 shsum :  1.69088328E+10  2.92988977E+11  1.27873065E+10  2.92988387E+11
 shsum :  1.74038098E+10  3.16299739E+11  2.33107702E+10  3.16299149E+11
 shsum :  1.74038098E+10  3.16299739E+11   56.117523      3.16299149E+11
 shsum :  1.74038098E+10  3.16299739E+11   2.4556215      3.16299149E+11
 fin  3.16299739E+11  1.74038098E+10   18.551891    
   18.174166    
 -3.80280137E+13   18.551891    
 ezero   0.0000000    
  3.16299739E+11
  2.04981861E+14

Total energy input of :3.229E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.163E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.163E+11)
                                           + heating (elhsum =5.962E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9405E+11 [eV/cm2/s]
                                                             or : 4.7113E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.337E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.944E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.194E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.228E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.472E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.420E+00 [eV.cm-2.s-1] ("shsum").
  1.29987763E+09           2          21
  1.39773453E+09           2          23

 Total Heating :  5.717E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.086E+09      8.419E+07          0.000
              286.72     -2.280E+08      1.946E+08          0.000
              258.24     -3.413E+08      4.584E+08          0.000
              231.88      7.272E+17      1.088E+09          1.000
              207.62            NaN      2.518E+09          1.000
              185.47            NaN      5.449E+09          1.000
              165.43      7.324E+17      1.027E+10          1.000
              147.50      1.036E+08      1.458E+10       -139.747
              131.68      7.430E+07      1.239E+10       -165.730
              117.97      6.085E+06      7.795E+09      -1280.122
              106.37      7.238E+17      2.541E+09          1.000
               96.88      9.506E+03      5.622E+07      -5913.114
               89.49      1.177E+01      1.422E+05     -12084.149
               84.22      8.163E-04      7.975E+00      -9768.864
               81.05      4.722E-09      4.380E-05      -9274.947
               80.00      1.344E-15      3.083E-14        -21.949
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.1549951E-03
 entot depart   571653.81       571653.81    
 shsum :  1.51308165E+10  2.33687204E+11  2.33686630E+11  2.33686630E+11
 shsum :  1.52881674E+10  2.53124837E+11  1.94376274E+10  2.53124264E+11
 shsum :  1.53587005E+10  2.65062695E+11  1.19378534E+10  2.65062121E+11
 shsum :  1.58347766E+10  2.87341150E+11  2.22784553E+10  2.87340560E+11
 shsum :  1.58347766E+10  2.87341150E+11   54.715187      2.87340560E+11
 shsum :  1.58347766E+10  2.87341150E+11   2.4195580      2.87340560E+11
 fin  2.87341150E+11  1.58347766E+10   18.570086    
   18.146208    
 -4.17961219E+13   18.570086    
 ezero   0.0000000    
  2.87341150E+11
  2.25072325E+14

Total energy input of :2.941E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.873E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.873E+11)
                                           + heating (elhsum =5.717E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6311E+11 [eV/cm2/s]
                                                             or : 4.2155E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.065E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.770E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.100E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.109E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.305E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.376E+00 [eV.cm-2.s-1] ("shsum").
  1.25540851E+09           2          21
  1.34914611E+09           2          23

 Total Heating :  5.426E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.084E+09      8.220E+07          0.000
              286.72     -2.257E+08      1.895E+08          0.000
              258.24     -3.386E+08      4.451E+08          0.000
              231.88      7.272E+17      1.054E+09          1.000
              207.62            NaN      2.430E+09          1.000
              185.47            NaN      5.221E+09          1.000
              165.43      7.324E+17      9.645E+09          1.000
              147.50      1.192E+08      1.311E+10       -109.026
              131.68      6.770E+07      1.059E+10       -155.401
              117.97      5.184E+06      6.565E+09      -1265.484
              106.37      7.238E+17      1.835E+09          1.000
               96.88      5.696E+03      2.929E+07      -5141.641
               89.49      5.181E+00      4.932E+04      -9519.423
               84.22      1.251E-04      8.800E-01      -7030.397
               81.05      1.771E-10      1.059E-06      -5975.152
               80.00      2.025E-20      4.695E-19        -22.180
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.8201045E-03
 entot depart   542577.81       542577.81    
 shsum :  1.34878372E+10  2.06465319E+11  2.06464778E+11  2.06464778E+11
 shsum :  1.36325048E+10  2.24165806E+11  1.77004892E+10  2.24165265E+11
 shsum :  1.36983409E+10  2.35163845E+11  1.09980436E+10  2.35163304E+11
 shsum :  1.41526467E+10  2.56257212E+11  2.10933699E+10  2.56256672E+11
 shsum :  1.41526467E+10  2.56257212E+11   53.048355      2.56256672E+11
 shsum :  1.41526467E+10  2.56257212E+11   2.3760047      2.56256672E+11
 fin  2.56257212E+11  1.41526467E+10   18.590822    
   18.106663    
 -4.67638514E+13   18.590822    
 ezero   0.0000000    
  2.56257212E+11
  2.51542679E+14

Total energy input of :2.631E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.563E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.563E+11)
                                           + heating (elhsum =5.426E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  15.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3034E+11 [eV/cm2/s]
                                                             or : 3.6905E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.778E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.582E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.964E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.973E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.106E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.323E+00 [eV.cm-2.s-1] ("shsum").
  1.20120371E+09           2          21
  1.29006554E+09           2          23

 Total Heating :  5.081E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.082E+09      7.992E+07          0.000
              286.72     -2.232E+08      1.837E+08          0.000
              258.24     -3.357E+08      4.300E+08          0.000
              231.88      7.272E+17      1.015E+09          1.000
              207.62            NaN      2.331E+09          1.000
              185.47            NaN      4.959E+09          1.000
              165.43      7.324E+17      8.929E+09          1.000
              147.50      1.361E+08      1.146E+10        -83.161
              131.68      5.886E+07      8.740E+09       -147.484
              117.97      4.320E+06      5.301E+09      -1225.955
              106.37      7.238E+17      1.178E+09          1.000
               96.88      2.889E+03      1.299E+07      -4494.869
               89.49      1.724E+00      1.209E+04      -7009.005
               84.22      9.944E-06      4.597E-02      -4621.693
               81.05      1.339E-13      2.820E-11       -209.658
               80.00      3.403E-25      8.077E-24        -22.735
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.4571099E-03
 entot depart   508104.72       508104.72    
 shsum :  1.17545247E+10  1.77839686E+11  1.77839178E+11  1.77839178E+11
 shsum :  1.18854461E+10  1.93657962E+11  1.58182830E+10  1.93657455E+11
 shsum :  1.19461059E+10  2.03622236E+11  9.96427776E+09  2.03621728E+11
 shsum :  1.23752438E+10  2.23352717E+11  1.97304771E+10  2.23352209E+11
 shsum :  1.23752438E+10  2.23352717E+11   51.060295      2.23352209E+11
 shsum :  1.23752438E+10  2.23352717E+11   2.3230119      2.23352209E+11
 fin  2.23352717E+11  1.23752438E+10   18.613058    
   18.048349    
 -5.34803414E+13   18.613058    
 ezero   0.0000000    
  2.23352717E+11
  2.87327004E+14

Total energy input of :2.303E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.234E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.234E+11)
                                           + heating (elhsum =5.081E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1423E+11 [eV/cm2/s]
                                                             or : 5.0347E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 2.515E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.055E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.254E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.301E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.578E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.447E+00 [eV.cm-2.s-1] ("shsum").
  1.33255219E+09           2          21
  1.43388006E+09           2          23

 Total Heating :  5.899E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      8.659E+07          0.000
              286.72     -2.318E+08      2.008E+08          0.000
              258.24     -3.456E+08      4.737E+08          0.000
              231.88      7.272E+17      1.124E+09          1.000
              207.62            NaN      2.600E+09          1.000
              185.47            NaN      5.630E+09          1.000
              165.43      7.324E+17      1.067E+10          1.000
              147.50      9.498E+07      1.545E+10       -161.669
              131.68      7.704E+07      1.353E+10       -174.621
              117.97      6.663E+06      8.587E+09      -1287.788
              106.37      7.238E+17      3.036E+09          1.000
               96.88      1.251E+04      8.127E+07      -6497.612
               89.49      1.811E+01      2.501E+05     -13809.835
               84.22      2.197E-03      2.585E+01     -11768.214
               81.05      2.729E-08      3.050E-04     -11177.081
               80.00      3.612E-11      7.813E-10        -20.631
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.3706377E-03
 entot depart   589912.19       589912.19    
 shsum :  1.62048307E+10  2.51516142E+11  2.51515552E+11  2.51515552E+11
 shsum :  1.63703480E+10  2.72070492E+11  2.05543547E+10  2.72069902E+11
 shsum :  1.64438733E+10  2.84606300E+11  1.25358070E+10  2.84605710E+11
 shsum :  1.69332521E+10  3.07611927E+11  2.30056141E+10  3.07611337E+11
 shsum :  1.69332521E+10  3.07611927E+11   55.781414      3.07611337E+11
 shsum :  1.69332521E+10  3.07611927E+11   2.4469090      3.07611337E+11
 fin  3.07611927E+11  1.69332521E+10   18.557245    
   18.166145    
 -3.90847728E+13   18.557245    
 ezero   0.0000000    
  3.07611927E+11
  2.10617311E+14

Total energy input of :3.142E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.076E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.076E+11)
                                           + heating (elhsum =5.899E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8623E+11 [eV/cm2/s]
                                                             or : 4.5860E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 2.268E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.900E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.170E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.198E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.438E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.411E+00 [eV.cm-2.s-1] ("shsum").
  1.29538624E+09           2          21
  1.39319987E+09           2          23

 Total Heating :  5.653E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.087E+09      8.486E+07          0.000
              286.72     -2.297E+08      1.962E+08          0.000
              258.24     -3.432E+08      4.619E+08          0.000
              231.88      7.272E+17      1.094E+09          1.000
              207.62            NaN      2.523E+09          1.000
              185.47            NaN      5.430E+09          1.000
              165.43      7.324E+17      1.013E+10          1.000
              147.50      1.083E+08      1.417E+10       -129.885
              131.68      7.207E+07      1.188E+10       -163.822
              117.97      5.806E+06      7.466E+09      -1284.947
              106.37      7.238E+17      2.347E+09          1.000
               96.88      8.293E+03      4.741E+07      -5716.043
               89.49      9.582E+00      1.095E+05     -11427.834
               84.22      5.186E-04      4.686E+00      -9035.571
               81.05      2.147E-09      1.846E-05      -8598.516
               80.00      1.224E-17      2.819E-16        -22.022
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.0710163E-03
 entot depart   565345.06       565345.06    
 shsum :  1.47146752E+10  2.26791735E+11  2.26791162E+11  2.26791162E+11
 shsum :  1.48688456E+10  2.45792801E+11  1.90010716E+10  2.45792227E+11
 shsum :  1.49382093E+10  2.57496105E+11  1.17033032E+10  2.57495532E+11
 shsum :  1.54088571E+10  2.79479615E+11  2.19834982E+10  2.79479026E+11
 shsum :  1.54088571E+10  2.79479615E+11   54.377037      2.79479026E+11
 shsum :  1.54088571E+10  2.79479615E+11   2.4106636      2.79479026E+11
 fin  2.79479615E+11  1.54088571E+10   18.575951    
   18.137596    
 -4.29514178E+13   18.575951    
 ezero   0.0000000    
  2.79479615E+11
  2.31220554E+14

Total energy input of :2.862E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.795E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.795E+11)
                                           + heating (elhsum =5.653E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5614E+11 [eV/cm2/s]
                                                             or : 4.1038E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.003E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.730E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.078E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.081E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.271E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.367E+00 [eV.cm-2.s-1] ("shsum").
  1.25026854E+09           2          21
  1.34390310E+09           2          23

 Total Heating :  5.363E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.085E+09      8.282E+07          0.000
              286.72     -2.273E+08      1.910E+08          0.000
              258.24     -3.404E+08      4.483E+08          0.000
              231.88      7.272E+17      1.059E+09          1.000
              207.62            NaN      2.435E+09          1.000
              185.47            NaN      5.200E+09          1.000
              165.43      7.324E+17      9.512E+09          1.000
              147.50      1.233E+08      1.273E+10       -102.219
              131.68      6.535E+07      1.015E+10       -154.308
              117.97      4.962E+06      6.282E+09      -1265.112
              106.37      7.238E+17      1.677E+09          1.000
               96.88      4.923E+03      2.471E+07      -5018.538
               89.49      4.131E+00      3.702E+04      -8961.459
               84.22      7.539E-05      4.878E-01      -6469.629
               81.05      7.912E-11      1.585E-08       -199.291
               80.00      2.654E-22      6.229E-21        -22.473
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.7438467E-03
 entot depart   536290.00       536290.00    
 shsum :  1.31184271E+10  2.00350138E+11  2.00349598E+11  2.00349598E+11
 shsum :  1.32602071E+10  2.17654821E+11  1.73046804E+10  2.17654280E+11
 shsum :  1.33249618E+10  2.28436345E+11  1.07815291E+10  2.28435804E+11
 shsum :  1.37740442E+10  2.49247138E+11  2.08108012E+10  2.49246614E+11
 shsum :  1.37740442E+10  2.49247138E+11   52.707771      2.49246614E+11
 shsum :  1.37740442E+10  2.49247138E+11   2.3668914      2.49246614E+11
 fin  2.49247138E+11  1.37740442E+10   18.595551    
   18.095421    
 -4.80492336E+13   18.595551    
 ezero   0.0000000    
  2.49247138E+11
  2.58391037E+14

Total energy input of :2.561E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.492E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.492E+11)
                                           + heating (elhsum =5.363E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  20.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2431E+11 [eV/cm2/s]
                                                             or : 3.5939E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.726E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.547E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.768E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.946E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.072E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.314E+00 [eV.cm-2.s-1] ("shsum").
  1.19531827E+09           2          21
  1.28399616E+09           2          23

 Total Heating :  5.019E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.083E+09      8.046E+07          0.000
              286.72     -2.247E+08      1.850E+08          0.000
              258.24     -3.374E+08      4.328E+08          0.000
              231.88      7.272E+17      1.020E+09          1.000
              207.62            NaN      2.334E+09          1.000
              185.47            NaN      4.935E+09          1.000
              165.43      7.324E+17      8.794E+09          1.000
              147.50      1.393E+08      1.110E+10        -78.694
              131.68      5.653E+07      8.379E+09       -147.208
              117.97      4.152E+06      5.064E+09      -1218.594
              106.37      7.238E+17      1.067E+09          1.000
               96.88      2.483E+03      1.091E+07      -4390.785
               89.49      1.336E+00      8.771E+03      -6563.734
               84.22      5.594E-06      2.363E-02      -4223.128
               81.05      5.348E-14      1.127E-11       -209.653
               80.00      1.356E-25      3.216E-24        -22.722
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3896349E-03
 entot depart   501890.19       501890.19    
 shsum :  1.14359511E+10  1.72591727E+11  1.72591219E+11  1.72591219E+11
 shsum :  1.15643177E+10  1.88059664E+11  1.54679316E+10  1.88059156E+11
 shsum :  1.16239974E+10  1.97828100E+11  9.76842957E+09  1.97827592E+11
 shsum :  1.20481679E+10  2.17291457E+11  1.94633482E+10  2.17290932E+11
 shsum :  1.20481679E+10  2.17291457E+11   50.718311      2.17290932E+11
 shsum :  1.20481679E+10  2.17291457E+11   2.3136792      2.17290932E+11
 fin  2.17291457E+11  1.20481679E+10   18.617643    
   18.035229    
 -5.49321913E+13   18.617643    
 ezero   0.0000000    
  2.17291457E+11
  2.95054489E+14

Total energy input of :2.243E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.173E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.173E+11)
                                           + heating (elhsum =5.019E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.04 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0327E+11 [eV/cm2/s]
                                                             or : 4.8590E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.418E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.995E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.221E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.261E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.531E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.435E+00 [eV.cm-2.s-1] ("shsum").
  1.32502861E+09           2          21
  1.42603226E+09           2          23

 Total Heating :  5.813E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      8.713E+07          0.000
              286.72     -2.333E+08      2.021E+08          0.000
              258.24     -3.473E+08      4.764E+08          0.000
              231.88      7.272E+17      1.129E+09          1.000
              207.62            NaN      2.601E+09          1.000
              185.47            NaN      5.597E+09          1.000
              165.43      7.324E+17      1.050E+10          1.000
              147.50      1.013E+08      1.492E+10       -146.335
              131.68      7.438E+07      1.282E+10       -171.377
              117.97      6.248E+06      8.131E+09      -1300.525
              106.37      7.238E+17      2.738E+09          1.000
               96.88      1.054E+04      6.525E+07      -6189.980
               89.49      1.402E+01      1.806E+05     -12877.918
               84.22      1.256E-03      1.338E+01     -10654.505
               81.05      1.035E-08      1.047E-04     -10118.243
               80.00      3.557E-15      8.172E-14        -21.972
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2538950E-03
 entot depart   581281.81       581281.81    
 shsum :  1.56207811E+10  2.41816289E+11  2.41815716E+11  2.41815716E+11
 shsum :  1.57818767E+10  2.61765087E+11  1.99488020E+10  2.61764514E+11
 shsum :  1.58537933E+10  2.73978524E+11  1.22134364E+10  2.73977950E+11
 shsum :  1.63359386E+10  2.96589787E+11  2.26112676E+10  2.96589230E+11
 shsum :  1.63359386E+10  2.96589787E+11   55.310028      2.96589230E+11
 shsum :  1.63359386E+10  2.96589787E+11   2.4346013      2.96589230E+11
 fin  2.96589787E+11  1.63359386E+10   18.564674    
   18.155663    
 -4.05138812E+13   18.564674    
 ezero   0.0000000    
  2.96589787E+11
  2.18231046E+14

Total energy input of :3.033E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.966E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.966E+11)
                                           + heating (elhsum =5.813E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7628E+11 [eV/cm2/s]
                                                             or : 4.4265E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 2.180E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.844E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.140E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.160E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.391E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.398E+00 [eV.cm-2.s-1] ("shsum").
  1.28737805E+09           2          21
  1.38482957E+09           2          23

 Total Heating :  5.568E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      8.538E+07          0.000
              286.72     -2.312E+08      1.975E+08          0.000
              258.24     -3.449E+08      4.645E+08          0.000
              231.88      7.272E+17      1.098E+09          1.000
              207.62            NaN      2.523E+09          1.000
              185.47            NaN      5.396E+09          1.000
              165.43      7.324E+17      9.960E+09          1.000
              147.50      1.141E+08      1.366E+10       -118.731
              131.68      6.919E+07      1.125E+10       -161.584
              117.97      5.468E+06      7.053E+09      -1288.920
              106.37      7.238E+17      2.106E+09          1.000
               96.88      6.912E+03      3.788E+07      -5479.905
               89.49      7.268E+00      7.704E+04     -10599.080
               84.22      2.804E-04      2.283E+00      -8139.313
               81.05      7.510E-10      5.126E-06      -6824.785
               80.00      9.753E-20      2.263E-18        -22.204
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9635398E-03
 entot depart   556754.44       556754.44    
 shsum :  1.41858120E+10  2.18023723E+11  2.18023166E+11  2.18023166E+11
 shsum :  1.43359119E+10  2.36466749E+11  1.84430223E+10  2.36466192E+11
 shsum :  1.44037734E+10  2.47868965E+11  1.14022205E+10  2.47868408E+11
 shsum :  1.48674068E+10  2.69471351E+11  2.16023941E+10  2.69470794E+11
 shsum :  1.48674068E+10  2.69471351E+11   53.905293      2.69470794E+11
 shsum :  1.48674068E+10  2.69471351E+11   2.3981731      2.69470794E+11
 fin  2.69471351E+11  1.48674068E+10   18.582800    
   18.124973    
 -4.45156499E+13   18.582800    
 ezero   0.0000000    
  2.69471351E+11
  2.39552975E+14

Total energy input of :2.763E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.695E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.695E+11)
                                           + heating (elhsum =5.568E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4728E+11 [eV/cm2/s]
                                                             or : 3.9619E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.926E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.680E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.050E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.045E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.224E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.354E+00 [eV.cm-2.s-1] ("shsum").
  1.24158938E+09           2          21
  1.33480563E+09           2          23

 Total Heating :  5.278E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.086E+09      8.330E+07          0.000
              286.72     -2.287E+08      1.921E+08          0.000
              258.24     -3.421E+08      4.507E+08          0.000
              231.88      7.272E+17      1.063E+09          1.000
              207.62            NaN      2.434E+09          1.000
              185.47            NaN      5.164E+09          1.000
              165.43      7.324E+17      9.336E+09          1.000
              147.50      1.284E+08      1.225E+10        -94.406
              131.68      6.235E+07      9.608E+09       -153.099
              117.97      4.690E+06      5.926E+09      -1262.417
              106.37      7.238E+17      1.486E+09          1.000
               96.88      4.063E+03      1.969E+07      -4844.376
               89.49      3.096E+00      2.570E+04      -8299.200
               84.22      3.795E-05      2.196E-01      -5786.847
               81.05      2.387E-11      4.781E-09       -199.306
               80.00      8.002E-23      1.878E-21        -22.467
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.6463444E-03
 entot depart   527773.44       527773.44    
 shsum :  1.26497546E+10  1.92600932E+11  1.92600408E+11  1.92600408E+11
 shsum :  1.27878420E+10  2.09399595E+11  1.67986627E+10  2.09399071E+11
 shsum :  1.28512102E+10  2.19903721E+11  1.05041234E+10  2.19903197E+11
 shsum :  1.32935352E+10  2.40349151E+11  2.04454257E+10  2.40348627E+11
 shsum :  1.32935352E+10  2.40349151E+11   52.236210      2.40348627E+11
 shsum :  1.32935352E+10  2.40349151E+11   2.3541987      2.40348627E+11
 fin  2.40349151E+11  1.32935352E+10   18.601662    
   18.080153    
 -4.97860236E+13   18.601662    
 ezero   0.0000000    
  2.40349151E+11
  2.67642884E+14

Total energy input of :2.473E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.403E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.403E+11)
                                           + heating (elhsum =5.278E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  25.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1665E+11 [eV/cm2/s]
                                                             or : 3.4712E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.659E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.502E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.517E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.912E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.025E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.301E+00 [eV.cm-2.s-1] ("shsum").
  1.18587712E+09           2          21
  1.27406208E+09           2          23

 Total Heating :  4.935E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.084E+09      8.088E+07          0.000
              286.72     -2.260E+08      1.859E+08          0.000
              258.24     -3.391E+08      4.348E+08          0.000
              231.88      7.272E+17      1.023E+09          1.000
              207.62            NaN      2.331E+09          1.000
              185.47            NaN      4.896E+09          1.000
              165.43      7.324E+17      8.616E+09          1.000
              147.50      1.431E+08      1.066E+10        -73.483
              131.68      5.360E+07      7.933E+09       -146.993
              117.97      3.948E+06      4.765E+09      -1206.099
              106.37      7.238E+17      9.335E+08          1.000
               96.88      2.035E+03      8.672E+06      -4260.203
               89.49      9.468E-01      5.695E+03      -6013.801
               84.22      2.568E-06      9.615E-03      -3743.574
               81.05      1.251E-15      2.678E-13       -213.075
               80.00      2.120E-27      5.080E-26        -22.965
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3034033E-03
 entot depart   493522.94       493522.94    
 shsum :  1.10319094E+10  1.65944672E+11  1.65944181E+11  1.65944181E+11
 shsum :  1.11570094E+10  1.80965081E+11  1.50204078E+10  1.80964590E+11
 shsum :  1.12154317E+10  1.90482514E+11  9.51742669E+09  1.90482022E+11
 shsum :  1.16331807E+10  2.09600725E+11  1.91182172E+10  2.09600233E+11
 shsum :  1.16331807E+10  2.09600725E+11   50.248589      2.09600233E+11
 shsum :  1.16331807E+10  2.09600725E+11   2.3007934      2.09600233E+11
 fin  2.09600725E+11  1.16331807E+10   18.623564    
   18.017490    
 -5.68917743E+13   18.623564    
 ezero   0.0000000    
  2.09600725E+11
  3.05482737E+14

Total energy input of :2.167E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.096E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.096E+11)
                                           + heating (elhsum =4.935E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9005E+11 [eV/cm2/s]
                                                             or : 4.6472E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.301E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.921E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.182E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.212E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.469E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.418E+00 [eV.cm-2.s-1] ("shsum").
  1.31361267E+09           2          21
  1.41393536E+09           2          23

 Total Heating :  5.702E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      8.749E+07          0.000
              286.72     -2.346E+08      2.030E+08          0.000
              258.24     -3.488E+08      4.781E+08          0.000
              231.88      7.272E+17      1.130E+09          1.000
              207.62            NaN      2.596E+09          1.000
              185.47            NaN      5.547E+09          1.000
              165.43      7.324E+17      1.028E+10          1.000
              147.50      1.087E+08      1.428E+10       -130.347
              131.68      7.099E+07      1.199E+10       -167.838
              117.97      5.785E+06      7.575E+09      -1308.557
              106.37      7.238E+17      2.394E+09          1.000
               96.88      8.451E+03      4.940E+07      -5843.912
               89.49      1.006E+01      1.183E+05     -11757.008
               84.22      6.029E-04      5.654E+00      -9377.036
               81.05      2.892E-09      2.584E-05      -8931.271
               80.00      1.745E-17      4.020E-16        -22.046
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.1124201E-03
 entot depart   570170.44       570170.44    
 shsum :  1.49173084E+10  2.30141444E+11  2.30140871E+11  2.30140871E+11
 shsum :  1.50730465E+10  2.49355928E+11  1.92144876E+10  2.49355354E+11
 shsum :  1.51429990E+10  2.61175951E+11  1.18200177E+10  2.61175378E+11
 shsum :  1.56162058E+10  2.83300200E+11  2.21242634E+10  2.83299643E+11
 shsum :  1.56162058E+10  2.83300200E+11   54.693516      2.83299643E+11
 shsum :  1.56162058E+10  2.83300200E+11   2.4183855      2.83299643E+11
 fin  2.83300200E+11  1.56162058E+10   18.573690    
   18.141424    
 -4.23811183E+13   18.573690    
 ezero   0.0000000    
  2.83300200E+11
  2.28178241E+14

Total energy input of :2.901E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.833E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.833E+11)
                                           + heating (elhsum =5.702E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6427E+11 [eV/cm2/s]
                                                             or : 4.2342E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 2.075E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.777E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.103E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.113E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.329E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.382E+00 [eV.cm-2.s-1] ("shsum").
  1.27546112E+09           2          21
  1.37219789E+09           2          23

 Total Heating :  5.457E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      8.572E+07          0.000
              286.72     -2.325E+08      1.983E+08          0.000
              258.24     -3.465E+08      4.661E+08          0.000
              231.88      7.272E+17      1.100E+09          1.000
              207.62            NaN      2.517E+09          1.000
              185.47            NaN      5.346E+09          1.000
              165.43      7.324E+17      9.737E+09          1.000
              147.50      1.209E+08      1.305E+10       -106.918
              131.68      6.559E+07      1.051E+10       -159.226
              117.97      5.080E+06      6.562E+09      -1290.716
              106.37      7.238E+17      1.824E+09          1.000
               96.88      5.565E+03      2.855E+07      -5129.746
               89.49      5.072E+00      4.877E+04      -9614.691
               84.22      1.255E-04      8.926E-01      -7114.072
               81.05      1.856E-10      1.122E-06      -6046.851
               80.00      2.137E-20      4.958E-19        -22.202
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.8330555E-03
 entot depart   545733.94       545733.94    
 shsum :  1.35492065E+10  2.07473623E+11  2.07473082E+11  2.07473082E+11
 shsum :  1.36943647E+10  2.25239613E+11  1.77659965E+10  2.25239073E+11
 shsum :  1.37603912E+10  2.36274500E+11  1.10348810E+10  2.36273959E+11
 shsum :  1.42153615E+10  2.57406599E+11  2.11320996E+10  2.57406058E+11
 shsum :  1.42153615E+10  2.57406599E+11   53.290466      2.57406058E+11
 shsum :  1.42153615E+10  2.57406599E+11   2.3817897      2.57406058E+11
 fin  2.57406599E+11  1.42153615E+10   18.590698    
   18.107637    
 -4.65575420E+13   18.590698    
 ezero   0.0000000    
  2.57406599E+11
  2.50434611E+14

Total energy input of :2.643E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.574E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.574E+11)
                                           + heating (elhsum =5.457E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3663E+11 [eV/cm2/s]
                                                             or : 3.7912E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 1.833E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.619E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.017E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.999E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.162E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.338E+00 [eV.cm-2.s-1] ("shsum").
  1.22902093E+09           2          21
  1.32147085E+09           2          23

 Total Heating :  5.169E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.087E+09      8.362E+07          0.000
              286.72     -2.300E+08      1.928E+08          0.000
              258.24     -3.437E+08      4.521E+08          0.000
              231.88      7.272E+17      1.064E+09          1.000
              207.62            NaN      2.427E+09          1.000
              185.47            NaN      5.112E+09          1.000
              165.43      7.324E+17      9.113E+09          1.000
              147.50      1.341E+08      1.166E+10        -85.987
              131.68      5.868E+07      8.974E+09       -151.931
              117.97      4.381E+06      5.502E+09      -1254.852
              106.37      7.238E+17      1.271E+09          1.000
               96.88      3.184E+03      1.480E+07      -4646.759
               89.49      2.082E+00      1.557E+04      -7476.297
               84.22      1.610E-05      8.125E-02      -5046.024
               81.05      3.000E-13      6.325E-11       -209.819
               80.00      7.610E-25      1.809E-23        -22.763
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5282033E-03
 entot depart   516897.38       516897.38    
 shsum :  1.20862863E+10  1.83298032E+11  1.83297507E+11  1.83297507E+11
 shsum :  1.22198999E+10  1.99483539E+11  1.61855089E+10  1.99483015E+11
 shsum :  1.22815764E+10  2.09649549E+11  1.01660027E+10  2.09649025E+11
 shsum :  1.27155630E+10  2.29644550E+11  1.99949988E+10  2.29644026E+11
 shsum :  1.27155630E+10  2.29644550E+11   51.624733      2.29644026E+11
 shsum :  1.27155630E+10  2.29644550E+11   2.3376436      2.29644026E+11
 fin  2.29644550E+11  1.27155630E+10   18.609230    
   18.060116    
 -5.20489974E+13   18.609230    
 ezero   0.0000000    
  2.29644550E+11
  2.79694511E+14

Total energy input of :2.366E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.296E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.296E+11)
                                           + heating (elhsum =5.169E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  30.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0744E+11 [eV/cm2/s]
                                                             or : 3.3236E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.580E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.448E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.212E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.869E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.964E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.284E+00 [eV.cm-2.s-1] ("shsum").
  1.17253837E+09           2          21
  1.25989107E+09           2          23

 Total Heating :  4.829E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.085E+09      8.113E+07          0.000
              286.72     -2.273E+08      1.865E+08          0.000
              258.24     -3.406E+08      4.359E+08          0.000
              231.88      7.272E+17      1.023E+09          1.000
              207.62            NaN      2.323E+09          1.000
              185.47            NaN      4.841E+09          1.000
              165.43      7.324E+17      8.391E+09          1.000
              147.50      1.473E+08      1.013E+10        -67.744
              131.68      5.007E+07      7.412E+09       -147.025
              117.97      3.715E+06      4.410E+09      -1186.133
              106.37      7.238E+17      7.853E+08          1.000
               96.88      1.584E+03      6.499E+06      -4101.910
               89.49      6.044E-01      3.248E+03      -5372.759
               84.22      9.294E-07      2.979E-03      -3204.513
               81.05      2.885E-16      6.177E-14       -213.054
               80.00      4.858E-28      1.108E-26        -21.813
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.1987685E-03
 entot depart   482889.59       482889.59    
 shsum :  1.05463869E+10  1.57970694E+11  1.57970219E+11  1.57970219E+11
 shsum :  1.06675251E+10  1.72448383E+11  1.44776817E+10  1.72447908E+11
 shsum :  1.07244134E+10  1.81659976E+11  9.21158963E+09  1.81659501E+11
 shsum :  1.11342346E+10  2.00352678E+11  1.86926961E+10  2.00352203E+11
 shsum :  1.11342346E+10  2.00352678E+11   49.643131      2.00352203E+11
 shsum :  1.11342346E+10  2.00352678E+11   2.2840848      2.00352203E+11
 fin  2.00352678E+11  1.11342346E+10   18.630848    
   17.994293    
 -5.94412023E+13   18.630848    
 ezero   0.0000000    
  2.00352678E+11
  3.19047216E+14

Total energy input of :2.074E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.004E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.004E+11)
                                           + heating (elhsum =4.829E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  17.99 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7469E+11 [eV/cm2/s]
                                                             or : 4.4011E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          110

 MAIN : Total energy deposition in [CO2] is 2.166E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.835E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.136E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.154E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.392E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.398E+00 [eV.cm-2.s-1] ("shsum").
  1.29782746E+09           2          21
  1.39707187E+09           2          23

 Total Heating :  5.564E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.091E+09      8.766E+07          0.000
              286.72     -2.358E+08      2.034E+08          0.000
              258.24     -3.502E+08      4.786E+08          0.000
              231.88      7.272E+17      1.129E+09          1.000
              207.62            NaN      2.583E+09          1.000
              185.47            NaN      5.479E+09          1.000
              165.43      7.324E+17      9.999E+09          1.000
              147.50      1.171E+08      1.351E+10       -114.396
              131.68      6.677E+07      1.104E+10       -164.295
              117.97      5.277E+06      6.940E+09      -1314.215
              106.37      7.238E+17      2.029E+09          1.000
               96.88      6.395E+03      3.504E+07      -5477.884
               89.49      6.581E+00      6.890E+04     -10469.557
               84.22      2.344E-04      1.872E+00      -7984.698
               81.05      5.703E-10      3.833E-06      -6720.043
               80.00      7.247E-20      1.683E-18        -22.225
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9468203E-03
 entot depart   556381.69       556381.69    
 shsum :  1.41011292E+10  2.16610570E+11  2.16610013E+11  2.16610013E+11
 shsum :  1.42505964E+10  2.34965172E+11  1.83546081E+10  2.34964615E+11
 shsum :  1.43182326E+10  2.46321201E+11  1.13560289E+10  2.46320644E+11
 shsum :  1.47807109E+10  2.67861656E+11  2.15404483E+10  2.67861098E+11
 shsum :  1.47807109E+10  2.67861656E+11   53.919064      2.67861098E+11
 shsum :  1.47807109E+10  2.67861656E+11   2.3978648      2.67861098E+11
 fin  2.67861656E+11  1.47807109E+10   18.584274    
   18.122379    
 -4.47767579E+13   18.584274    
 ezero   0.0000000    
  2.67861656E+11
  2.40938958E+14

Total energy input of :2.747E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.679E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.679E+11)
                                           + heating (elhsum =5.564E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5034E+11 [eV/cm2/s]
                                                             or : 4.0109E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.953E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.697E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.060E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.057E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.252E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.361E+00 [eV.cm-2.s-1] ("shsum").
  1.25915162E+09           2          21
  1.35478016E+09           2          23

 Total Heating :  5.321E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      8.589E+07          0.000
              286.72     -2.337E+08      1.987E+08          0.000
              258.24     -3.479E+08      4.666E+08          0.000
              231.88      7.272E+17      1.098E+09          1.000
              207.62            NaN      2.504E+09          1.000
              185.47            NaN      5.276E+09          1.000
              165.43      7.324E+17      9.460E+09          1.000
              147.50      1.284E+08      1.232E+10        -94.926
              131.68      6.121E+07      9.672E+09       -157.021
              117.97      4.658E+06      6.001E+09      -1287.330
              106.37      7.238E+17      1.518E+09          1.000
               96.88      4.132E+03      2.042E+07      -4941.350
               89.49      3.268E+00      2.720E+04      -8322.625
               84.22      4.451E-05      2.674E-01      -6006.408
               81.05      3.292E-11      6.600E-09       -199.498
               80.00      1.099E-22      2.581E-21        -22.492
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.6803037E-03
 entot depart   532099.25       532099.25    
 shsum :  1.28111841E+10  1.95261121E+11  1.95260596E+11  1.95260596E+11
 shsum :  1.29505577E+10  2.12234502E+11  1.69733755E+10  2.12233978E+11
 shsum :  1.30144184E+10  2.22836212E+11  1.06017034E+10  2.22835687E+11
 shsum :  1.34589942E+10  2.43404849E+11  2.05686333E+10  2.43404325E+11
 shsum :  1.34589942E+10  2.43404849E+11   52.520584      2.43404325E+11
 shsum :  1.34589942E+10  2.43404849E+11   2.3611288      2.43404325E+11
 fin  2.43404849E+11  1.34589942E+10   18.600063    
   18.084921    
 -4.91739782E+13   18.600063    
 ezero   0.0000000    
  2.43404849E+11
  2.64375319E+14

Total energy input of :2.503E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.434E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.434E+11)
                                           + heating (elhsum =5.321E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2427E+11 [eV/cm2/s]
                                                             or : 3.5932E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.725E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.547E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.767E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.946E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.086E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.317E+00 [eV.cm-2.s-1] ("shsum").
  1.21206810E+09           2          21
  1.30336474E+09           2          23

 Total Heating :  5.035E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      8.375E+07          0.000
              286.72     -2.312E+08      1.932E+08          0.000
              258.24     -3.452E+08      4.524E+08          0.000
              231.88      7.272E+17      1.062E+09          1.000
              207.62            NaN      2.413E+09          1.000
              185.47            NaN      5.040E+09          1.000
              165.43      7.324E+17      8.837E+09          1.000
              147.50      1.402E+08      1.098E+10        -77.290
              131.68      5.430E+07      8.259E+09       -151.094
              117.97      4.045E+06      5.018E+09      -1239.420
              106.37      7.238E+17      1.041E+09          1.000
               96.88      2.354E+03      1.043E+07      -4428.367
               89.49      1.252E+00      8.208E+03      -6553.665
               84.22      5.099E-06      2.148E-02      -4211.090
               81.05      4.786E-14      1.009E-11       -209.815
               80.00      1.209E-25      2.870E-24        -22.736
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3899215E-03
 entot depart   503494.44       503494.44    
 shsum :  1.14335191E+10  1.72541428E+11  1.72540920E+11  1.72540920E+11
 shsum :  1.15618959E+10  1.88009333E+11  1.54679060E+10  1.88008825E+11
 shsum :  1.16215767E+10  1.97776736E+11  9.76741069E+09  1.97776228E+11
 shsum :  1.20455649E+10  2.17232589E+11  1.94558587E+10  2.17232081E+11
 shsum :  1.20455649E+10  2.17232589E+11   50.862045      2.17232081E+11
 shsum :  1.20455649E+10  2.17232589E+11   2.3168490      2.17232081E+11
 fin  2.17232589E+11  1.20455649E+10   18.618351    
   18.034239    
 -5.49440654E+13   18.618351    
 ezero   0.0000000    
  2.17232589E+11
  2.95107035E+14

Total energy input of :2.243E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.172E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.172E+11)
                                           + heating (elhsum =5.035E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.03 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  35.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9676E+11 [eV/cm2/s]
                                                             or : 3.1525E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.488E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.384E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.851E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.818E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.889E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.263E+00 [eV.cm-2.s-1] ("shsum").
  1.15487398E+09           2          21
  1.24102029E+09           2          23

 Total Heating :  4.698E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.086E+09      8.123E+07          0.000
              286.72     -2.284E+08      1.867E+08          0.000
              258.24     -3.421E+08      4.359E+08          0.000
              231.88      7.272E+17      1.021E+09          1.000
              207.62            NaN      2.308E+09          1.000
              185.47            NaN      4.767E+09          1.000
              165.43      7.324E+17      8.116E+09          1.000
              147.50      1.515E+08      9.502E+09        -61.726
              131.68      4.596E+07      6.826E+09       -147.503
              117.97      3.461E+06      4.004E+09      -1155.862
              106.37      7.238E+17      6.307E+08          1.000
               96.88      1.165E+03      4.558E+06      -3910.953
               89.49      3.399E-01      1.585E+03      -4663.272
               84.22      2.527E-07      6.653E-04      -2631.910
               81.05      4.966E-18      1.064E-15       -213.325
               80.00      5.154E-30      2.044E-30          0.603
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0761485E-03
 entot depart   469849.53       469849.53    
 shsum :  9.98429491E+09  1.48759331E+11  1.48758856E+11  1.48758856E+11
 shsum :  1.01007892E+10  1.62601583E+11  1.38422467E+10  1.62601107E+11
 shsum :  1.01558661E+10  1.71452826E+11  8.85124710E+09  1.71452350E+11
 shsum :  1.05561795E+10  1.89636461E+11  1.81836308E+10  1.89635985E+11
 shsum :  1.05561795E+10  1.89636461E+11   48.891727      1.89635985E+11
 shsum :  1.05561795E+10  1.89636461E+11   2.2631993      1.89635985E+11
 fin  1.89636461E+11  1.05561795E+10   18.639568    
   17.964499    
 -6.26961961E+13   18.639568    
 ezero   0.0000000    
  1.89636461E+11
  3.36360766E+14

Total energy input of :1.968E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.896E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.896E+11)
                                           + heating (elhsum =4.698E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5730E+11 [eV/cm2/s]
                                                             or : 4.1225E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 2.013E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.737E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.082E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.085E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.297E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.373E+00 [eV.cm-2.s-1] ("shsum").
  1.27703603E+09           2          21
  1.37475149E+09           2          23

 Total Heating :  5.397E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      8.761E+07          0.000
              286.72     -2.367E+08      2.032E+08          0.000
              258.24     -3.515E+08      4.778E+08          0.000
              231.88      7.272E+17      1.125E+09          1.000
              207.62            NaN      2.562E+09          1.000
              185.47            NaN      5.388E+09          1.000
              165.43      7.324E+17      9.660E+09          1.000
              147.50      1.262E+08      1.262E+10        -99.025
              131.68      6.165E+07      9.994E+09       -161.110
              117.97      4.746E+06      6.236E+09      -1313.009
              106.37      7.238E+17      1.635E+09          1.000
               96.88      4.568E+03      2.338E+07      -5117.596
               89.49      3.834E+00      3.470E+04      -9049.553
               84.22      6.982E-05      4.563E-01      -6534.738
               81.05      7.511E-11      1.508E-08       -199.720
               80.00      2.494E-22      5.866E-21        -22.517
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.7573606E-03
 entot depart   539667.69       539667.69    
 shsum :  1.31794688E+10  2.01344139E+11  2.01343599E+11  2.01343599E+11
 shsum :  1.33217608E+10  2.18715767E+11  1.73716255E+10  2.18715226E+11
 shsum :  1.33867244E+10  2.29536973E+11  1.08212070E+10  2.29536432E+11
 shsum :  1.38365614E+10  2.50390921E+11  2.08539505E+10  2.50390381E+11
 shsum :  1.38365614E+10  2.50390921E+11   52.970711      2.50390381E+11
 shsum :  1.38365614E+10  2.50390921E+11   2.3725247      2.50390381E+11
 fin  2.50390921E+11  1.38365614E+10   18.595755    
   18.096325    
 -4.78321364E+13   18.595755    
 ezero   0.0000000    
  2.50390921E+11
  2.57220726E+14

Total energy input of :2.573E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.504E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.504E+11)
                                           + heating (elhsum =5.397E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3460E+11 [eV/cm2/s]
                                                             or : 3.7588E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          102

 MAIN : Total energy deposition in [CO2] is 1.815E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.607E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.010E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.991E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.158E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.336E+00 [eV.cm-2.s-1] ("shsum").
  1.23783398E+09           2          21
  1.33190989E+09           2          23

 Total Heating :  5.156E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      8.584E+07          0.000
              286.72     -2.346E+08      1.986E+08          0.000
              258.24     -3.492E+08      4.658E+08          0.000
              231.88      7.272E+17      1.094E+09          1.000
              207.62            NaN      2.483E+09          1.000
              185.47            NaN      5.184E+09          1.000
              165.43      7.324E+17      9.122E+09          1.000
              147.50      1.363E+08      1.147E+10        -83.189
              131.68      5.602E+07      8.756E+09       -155.296
              117.97      4.218E+06      5.379E+09      -1274.350
              106.37      7.238E+17      1.204E+09          1.000
               96.88      2.887E+03      1.342E+07      -4647.815
               89.49      1.811E+00      1.325E+04      -7315.841
               84.22      1.232E-05      6.028E-02      -4892.649
               81.05      2.023E-13      4.269E-11       -210.040
               80.00      5.100E-25      1.213E-23        -22.778
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5059787E-03
 entot depart   515621.25       515621.25    
 shsum :  1.19790694E+10  1.81522006E+11  1.81521498E+11  1.81521498E+11
 shsum :  1.21118413E+10  1.97590696E+11  1.60686848E+10  1.97590188E+11
 shsum :  1.21732076E+10  2.07693578E+11  1.01028803E+10  2.07693070E+11
 shsum :  1.26055444E+10  2.27600318E+11  1.99067464E+10  2.27599811E+11
 shsum :  1.26055444E+10  2.27600318E+11   51.580494      2.27599811E+11
 shsum :  1.26055444E+10  2.27600318E+11   2.3356860      2.27599811E+11
 fin  2.27600318E+11  1.26055444E+10   18.611166    
   18.055573    
 -5.25032699E+13   18.611166    
 ezero   0.0000000    
  2.27600318E+11
  2.82106270E+14

Total energy input of :2.346E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.276E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.276E+11)
                                           + heating (elhsum =5.156E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1032E+11 [eV/cm2/s]
                                                             or : 3.3698E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.605E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.465E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.309E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.882E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.993E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.291E+00 [eV.cm-2.s-1] ("shsum").
  1.19014963E+09           2          21
  1.27985958E+09           2          23

 Total Heating :  4.874E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      8.369E+07          0.000
              286.72     -2.322E+08      1.930E+08          0.000
              258.24     -3.465E+08      4.515E+08          0.000
              231.88      7.272E+17      1.058E+09          1.000
              207.62            NaN      2.391E+09          1.000
              185.47            NaN      4.946E+09          1.000
              165.43      7.324E+17      8.501E+09          1.000
              147.50      1.464E+08      1.019E+10        -68.639
              131.68      4.925E+07      7.478E+09       -150.849
              117.97      3.694E+06      4.480E+09      -1211.724
              106.37      7.238E+17      8.097E+08          1.000
               96.88      1.631E+03      6.830E+06      -4186.630
               89.49      6.548E-01      3.642E+03      -5561.387
               84.22      1.175E-06      3.948E-03      -3359.406
               81.05      4.151E-16      8.893E-14       -213.238
               80.00      6.971E-28      1.620E-26        -22.232
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.2320335E-03
 entot depart   487361.53       487361.53    
 shsum :  1.06980209E+10  1.60451248E+11  1.60450757E+11  1.60450757E+11
 shsum :  1.08204186E+10  1.75100232E+11  1.46489795E+10  1.75099740E+11
 shsum :  1.08777984E+10  1.84408801E+11  9.30856960E+09  1.84408310E+11
 shsum :  1.12900250E+10  2.03232117E+11  1.88233196E+10  2.03231625E+11
 shsum :  1.12900250E+10  2.03232117E+11   49.933998      2.03231625E+11
 shsum :  1.12900250E+10  2.03232117E+11   2.2913301      2.03231625E+11
 fin  2.03232117E+11  1.12900250E+10   18.629110    
   18.001034    
 -5.86209768E+13   18.629110    
 ezero   0.0000000    
  2.03232117E+11
  3.14674034E+14

Total energy input of :2.103E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.032E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.032E+11)
                                           + heating (elhsum =4.874E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  40.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8472E+11 [eV/cm2/s]
                                                             or : 2.9596E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.384E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.312E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.437E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.759E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.798E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.238E+00 [eV.cm-2.s-1] ("shsum").
  1.13235072E+09           2          21
  1.21687424E+09           2          23

 Total Heating :  4.542E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.086E+09      8.113E+07          0.000
              286.72     -2.294E+08      1.864E+08          0.000
              258.24     -3.434E+08      4.349E+08          0.000
              231.88      7.272E+17      1.016E+09          1.000
              207.62            NaN      2.285E+09          1.000
              185.47            NaN      4.671E+09          1.000
              165.43      7.324E+17      7.786E+09          1.000
              147.50      1.552E+08      8.791E+09        -55.640
              131.68      4.134E+07      6.187E+09       -148.682
              117.97      3.195E+06      3.553E+09      -1111.046
              106.37      7.238E+17      4.787E+08          1.000
               96.88      8.045E+02      2.958E+06      -3676.300
               89.49      1.632E-01      6.381E+02      -3909.310
               84.22      4.812E-08      9.907E-05      -2057.760
               81.05      5.831E-19      1.250E-16       -213.319
               80.00      5.803E-31      6.404E-38          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.9359884E-03
 entot depart   454231.41       454231.41    
 shsum :  9.35147930E+09  1.38417373E+11  1.38416914E+11  1.38416914E+11
 shsum :  9.46266522E+09  1.51534322E+11  1.31169536E+10  1.51533863E+11
 shsum :  9.51565312E+09  1.59971049E+11  8.43673446E+09  1.59970591E+11
 shsum :  9.90478950E+09  1.77558110E+11  1.75870648E+10  1.77557651E+11
 shsum :  9.90478950E+09  1.77558110E+11   47.981606      1.77557651E+11
 shsum :  9.90478950E+09  1.77558110E+11   2.2376800      1.77557651E+11
 fin  1.77558110E+11  9.90478950E+09   18.649763    
   17.926491    
 -6.68194193E+13   18.649763    
 ezero   0.0000000    
  1.77558110E+11
  3.58285601E+14

Total energy input of :1.847E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.776E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.776E+11)
                                           + heating (elhsum =4.542E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.93 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3807E+11 [eV/cm2/s]
                                                             or : 3.8144E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.845E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.627E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.022E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.006E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.183E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.342E+00 [eV.cm-2.s-1] ("shsum").
  1.25042189E+09           2          21
  1.34609293E+09           2          23

 Total Heating :  5.197E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      8.733E+07          0.000
              286.72     -2.374E+08      2.025E+08          0.000
              258.24     -3.526E+08      4.755E+08          0.000
              231.88      7.272E+17      1.117E+09          1.000
              207.62            NaN      2.532E+09          1.000
              185.47            NaN      5.271E+09          1.000
              165.43      7.324E+17      9.250E+09          1.000
              147.50      1.356E+08      1.161E+10        -84.616
              131.68      5.558E+07      8.878E+09       -158.732
              117.97      4.211E+06      5.475E+09      -1299.221
              106.37      7.238E+17      1.243E+09          1.000
               96.88      2.986E+03      1.418E+07      -4747.744
               89.49      1.957E+00      1.482E+04      -7573.372
               84.22      1.533E-05      7.853E-02      -5123.021
               81.05      2.957E-13      6.249E-11       -210.300
               80.00      7.422E-25      1.767E-23        -22.811
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5451821E-03
 entot depart   519718.69       519718.69    
 shsum :  1.21621545E+10  1.84534057E+11  1.84533533E+11  1.84533533E+11
 shsum :  1.22964111E+10  2.00804647E+11  1.62705961E+10  2.00804123E+11
 shsum :  1.23583478E+10  2.11020530E+11  1.02158766E+10  2.11020005E+11
 shsum :  1.27934781E+10  2.31078101E+11  2.00575693E+10  2.31077577E+11
 shsum :  1.27934781E+10  2.31078101E+11   51.828049      2.31077577E+11
 shsum :  1.27934781E+10  2.31078101E+11   2.3416903      2.31077577E+11
 fin  2.31078101E+11  1.27934781E+10   18.609041    
   18.062180    
 -5.17320045E+13   18.609041    
 ezero   0.0000000    
  2.31078101E+11
  2.77993939E+14

Total energy input of :2.381E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.311E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.311E+11)
                                           + heating (elhsum =5.197E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1722E+11 [eV/cm2/s]
                                                             or : 3.4803E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.664E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.506E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.538E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.914E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.045E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.305E+00 [eV.cm-2.s-1] ("shsum").
  1.21071962E+09           2          21
  1.30273510E+09           2          23

 Total Heating :  4.960E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.091E+09      8.557E+07          0.000
              286.72     -2.355E+08      1.979E+08          0.000
              258.24     -3.503E+08      4.636E+08          0.000
              231.88      7.272E+17      1.086E+09          1.000
              207.62            NaN      2.452E+09          1.000
              185.47            NaN      5.066E+09          1.000
              165.43      7.324E+17      8.715E+09          1.000
              147.50      1.440E+08      1.051E+10        -72.022
              131.68      5.003E+07      7.779E+09       -154.483
              117.97      3.772E+06      4.705E+09      -1246.123
              106.37      7.238E+17      8.982E+08          1.000
               96.88      1.868E+03      8.113E+06      -4342.169
               89.49      8.562E-01      5.170E+03      -6036.451
               84.22      2.263E-06      8.506E-03      -3758.388
               81.05      1.095E-15      2.348E-13       -213.484
               80.00      1.837E-27      4.360E-26        -22.728
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3107353E-03
 entot depart   496018.47       496018.47    
 shsum :  1.10613402E+10  1.66412222E+11  1.66411731E+11  1.66411731E+11
 shsum :  1.11867187E+10  1.81467922E+11  1.50557010E+10  1.81467431E+11
 shsum :  1.12452567E+10  1.91006310E+11  9.53838592E+09  1.91005819E+11
 shsum :  1.16633631E+10  2.10145952E+11  1.91396413E+10  2.10145460E+11
 shsum :  1.16633631E+10  2.10145952E+11   50.450989      2.10145460E+11
 shsum :  1.16633631E+10  2.10145952E+11   2.3048062      2.10145460E+11
 fin  2.10145952E+11  1.16633631E+10   18.624157    
   18.017612    
 -5.67445501E+13   18.624157    
 ezero   0.0000000    
  2.10145952E+11
  3.04682531E+14

Total energy input of :2.172E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.101E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.101E+11)
                                           + heating (elhsum =4.960E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9493E+11 [eV/cm2/s]
                                                             or : 3.1231E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.472E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.373E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.790E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.809E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.882E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.260E+00 [eV.cm-2.s-1] ("shsum").
  1.16253466E+09           2          21
  1.25016742E+09           2          23

 Total Heating :  4.683E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      8.342E+07          0.000
              286.72     -2.330E+08      1.923E+08          0.000
              258.24     -3.477E+08      4.493E+08          0.000
              231.88      7.272E+17      1.050E+09          1.000
              207.62            NaN      2.360E+09          1.000
              185.47            NaN      4.827E+09          1.000
              165.43      7.324E+17      8.099E+09          1.000
              147.50      1.519E+08      9.308E+09        -60.289
              131.68      4.358E+07      6.649E+09       -151.577
              117.97      3.340E+06      3.897E+09      -1165.651
              106.37      7.238E+17      5.899E+08          1.000
               96.88      1.050E+03      4.102E+06      -3906.516
               89.49      2.856E-01      1.296E+03      -4535.107
               84.22      1.798E-07      4.554E-04      -2531.933
               81.05      3.247E-18      6.965E-16       -213.516
               80.00      3.336E-30      3.814E-37          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0550975E-03
 entot depart   468252.84       468252.84    
 shsum :  9.88748902E+09  1.47168805E+11  1.47168330E+11  1.47168330E+11
 shsum :  1.00031857E+10  1.60901038E+11  1.37322342E+10  1.60900563E+11
 shsum :  1.00579574E+10  1.69690694E+11  8.78965146E+09  1.69690218E+11
 shsum :  1.04565258E+10  1.87782152E+11  1.80914545E+10  1.87781677E+11
 shsum :  1.04565258E+10  1.87782152E+11   48.822720      1.87781677E+11
 shsum :  1.04565258E+10  1.87782152E+11   2.2604589      1.87781677E+11
 fin  1.87782152E+11  1.04565258E+10   18.641602    
   17.958370    
 -6.32937083E+13   18.641602    
 ezero   0.0000000    
  1.87782152E+11
  3.39529311E+14

Total energy input of :1.949E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.878E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.878E+11)
                                           + heating (elhsum =4.683E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  45.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7144E+11 [eV/cm2/s]
                                                             or : 2.7468E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.271E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.231E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.968E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.690E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.690E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.207E+00 [eV.cm-2.s-1] ("shsum").
  1.10431296E+09           2          21
  1.18674611E+09           2          23

 Total Heating :  4.358E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.087E+09      8.083E+07          0.000
              286.72     -2.302E+08      1.856E+08          0.000
              258.24     -3.445E+08      4.325E+08          0.000
              231.88      7.272E+17      1.008E+09          1.000
              207.62            NaN      2.253E+09          1.000
              185.47            NaN      4.551E+09          1.000
              165.43      7.324E+17      7.393E+09          1.000
              147.50      1.578E+08      7.998E+09        -49.678
              131.68      3.630E+07      5.510E+09       -150.809
              117.97      2.926E+06      3.065E+09      -1046.787
              106.37      7.238E+17      3.388E+08          1.000
               96.88      5.167E+02      1.747E+06      -3380.634
               89.49      6.387E-02      2.007E+02      -3140.691
               84.22      5.822E-09      8.690E-06      -1491.667
               81.05      6.526E-21      1.404E-18       -214.201
               80.00      2.365E-33      1.123E-40          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.7787359E-03
 entot depart   435834.28       435834.28    
 shsum :  8.65481830E+09  1.27071019E+11  1.27070585E+11  1.27070585E+11
 shsum :  8.76004966E+09  1.39376050E+11  1.23050250E+10  1.39375608E+11
 shsum :  8.81066803E+09  1.47344540E+11  7.96849306E+09  1.47344097E+11
 shsum :  9.18684058E+09  1.64242571E+11  1.68980296E+10  1.64242129E+11
 shsum :  9.18684058E+09  1.64242571E+11   46.896881      1.64242129E+11
 shsum :  9.18684058E+09  1.64242571E+11   2.2069407      1.64242129E+11
 fin  1.64242571E+11  9.18684058E+09   18.661448    
   17.878025    
 -7.20413403E+13   18.661448    
 ezero   0.0000000    
  1.64242571E+11
  3.86043673E+14

Total energy input of :1.714E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.642E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.642E+11)
                                           + heating (elhsum =4.358E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.88 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1720E+11 [eV/cm2/s]
                                                             or : 3.4800E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.664E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.506E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.540E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.914E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.046E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.304E+00 [eV.cm-2.s-1] ("shsum").
  1.21692685E+09           2          21
  1.30995494E+09           2          23

 Total Heating :  4.962E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      8.679E+07          0.000
              286.72     -2.380E+08      2.011E+08          0.000
              258.24     -3.535E+08      4.716E+08          0.000
              231.88      7.272E+17      1.105E+09          1.000
              207.62            NaN      2.491E+09          1.000
              185.47            NaN      5.123E+09          1.000
              165.43      7.324E+17      8.756E+09          1.000
              147.50      1.444E+08      1.047E+10        -71.459
              131.68      4.860E+07      7.715E+09       -157.750
              117.97      3.688E+06      4.667E+09      -1264.233
              106.37      7.238E+17      8.765E+08          1.000
               96.88      1.779E+03      7.788E+06      -4377.153
               89.49      8.032E-01      4.840E+03      -6025.332
               84.22      2.048E-06      7.673E-03      -3745.401
               81.05      9.691E-16      2.081E-13       -213.763
               80.00      1.617E-27      3.854E-26        -22.838
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3110594E-03
 entot depart   496150.69       496150.69    
 shsum :  1.10599363E+10  1.66382010E+11  1.66381519E+11  1.66381519E+11
 shsum :  1.11853271E+10  1.81437923E+11  1.50559171E+10  1.81437432E+11
 shsum :  1.12438774E+10  1.90977638E+11  9.53971302E+09  1.90977147E+11
 shsum :  1.16620308E+10  2.10119410E+11  1.91417754E+10  2.10118918E+11
 shsum :  1.16620308E+10  2.10119410E+11   50.464714      2.10118918E+11
 shsum :  1.16620308E+10  2.10119410E+11   2.3044631      2.10118918E+11
 fin  2.10119410E+11  1.16620308E+10   18.624535    
   18.017395    
 -5.67510303E+13   18.624535    
 ezero   0.0000000    
  2.10119410E+11
  3.04711119E+14

Total energy input of :2.172E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.101E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.101E+11)
                                           + heating (elhsum =4.962E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9836E+11 [eV/cm2/s]
                                                             or : 3.1781E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.501E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.394E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.908E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.826E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.911E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.268E+00 [eV.cm-2.s-1] ("shsum").
  1.17681766E+09           2          21
  1.26618957E+09           2          23

 Total Heating :  4.729E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.091E+09      8.505E+07          0.000
              286.72     -2.361E+08      1.965E+08          0.000
              258.24     -3.513E+08      4.598E+08          0.000
              231.88      7.272E+17      1.074E+09          1.000
              207.62            NaN      2.411E+09          1.000
              185.47            NaN      4.918E+09          1.000
              165.43      7.324E+17      8.228E+09          1.000
              147.50      1.507E+08      9.445E+09        -61.675
              131.68      4.335E+07      6.765E+09       -155.068
              117.97      3.340E+06      3.989E+09      -1193.267
              106.37      7.238E+17      6.189E+08          1.000
               96.88      1.106E+03      4.429E+06      -4002.409
               89.49      3.249E-01      1.542E+03      -4746.543
               84.22      2.528E-07      6.820E-04      -2697.145
               81.05      5.114E-18      1.098E-15       -213.762
               80.00      5.256E-30      2.049E-30          0.610
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0951726E-03
 entot depart   472947.97       472947.97    
 shsum :  1.00678093E+10  1.50113452E+11  1.50112977E+11  1.50112977E+11
 shsum :  1.01850245E+10  1.64051862E+11  1.39384156E+10  1.64051386E+11
 shsum :  1.02403973E+10  1.72960006E+11  8.90814054E+09  1.72959531E+11
 shsum :  1.06420931E+10  1.91218876E+11  1.82588723E+10  1.91218401E+11
 shsum :  1.06420931E+10  1.91218876E+11   49.107094      1.91218401E+11
 shsum :  1.06420931E+10  1.91218876E+11   2.2676167      1.91218401E+11
 fin  1.91218876E+11  1.06420931E+10   18.639181    
   17.968164    
 -6.21900485E+13   18.639181    
 ezero   0.0000000    
  1.91218876E+11
  3.33652253E+14

Total energy input of :1.984E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.912E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.912E+11)
                                           + heating (elhsum =4.729E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7824E+11 [eV/cm2/s]
                                                             or : 2.8557E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.329E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.272E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.211E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.725E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.751E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.223E+00 [eV.cm-2.s-1] ("shsum").
  1.12829670E+09           2          21
  1.21328998E+09           2          23

 Total Heating :  4.459E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      8.290E+07          0.000
              286.72     -2.337E+08      1.909E+08          0.000
              258.24     -3.487E+08      4.455E+08          0.000
              231.88      7.272E+17      1.038E+09          1.000
              207.62            NaN      2.318E+09          1.000
              185.47            NaN      4.678E+09          1.000
              165.43      7.324E+17      7.622E+09          1.000
              147.50      1.558E+08      8.330E+09        -52.448
              131.68      3.743E+07      5.790E+09       -153.678
              117.97      2.994E+06      3.279E+09      -1094.100
              106.37      7.238E+17      3.951E+08          1.000
               96.88      6.201E+02      2.208E+06      -3560.344
               89.49      9.771E-02      3.436E+02      -3515.288
               84.22      1.600E-08      2.791E-05      -1743.028
               81.05      2.088E-20      4.497E-18       -214.388
               80.00      9.154E-33      3.547E-40          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.8596334E-03
 entot depart   445872.44       445872.44    
 shsum :  9.01087744E+09  1.32859609E+11  1.32859167E+11  1.32859167E+11
 shsum :  9.11917261E+09  1.45581179E+11  1.27215657E+10  1.45580737E+11
 shsum :  9.17102285E+09  1.53791922E+11  8.21073971E+09  1.53791480E+11
 shsum :  9.55386163E+09  1.71044700E+11  1.72527800E+10  1.71044258E+11
 shsum :  9.55386163E+09  1.71044700E+11   47.505486      1.71044258E+11
 shsum :  9.55386163E+09  1.71044700E+11   2.2234063      1.71044258E+11
 fin  1.71044700E+11  9.55386163E+09   18.655880    
   17.903200    
 -6.92738001E+13   18.655880    
 ezero   0.0000000    
  1.71044700E+11
  3.71324183E+14

Total energy input of :1.782E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.710E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.710E+11)
                                           + heating (elhsum =4.459E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.90 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  50.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5706E+11 [eV/cm2/s]
                                                             or : 2.5164E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.149E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.141E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.447E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.611E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.562E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.170E+00 [eV.cm-2.s-1] ("shsum").
  1.06994125E+09           2          21
  1.14975424E+09           2          23

 Total Heating :  4.144E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.087E+09      8.031E+07          0.000
              286.72     -2.309E+08      1.843E+08          0.000
              258.24     -3.456E+08      4.287E+08          0.000
              231.88      7.272E+17      9.956E+08          1.000
              207.62            NaN      2.211E+09          1.000
              185.47            NaN      4.402E+09          1.000
              165.43      7.324E+17      6.932E+09          1.000
              147.50      1.584E+08      7.131E+09        -44.015
              131.68      3.100E+07      4.809E+09       -154.129
              117.97      2.657E+06      2.551E+09       -958.804
              106.37      7.238E+17      2.194E+08          1.000
               96.88      3.037E+02      9.133E+05      -3006.147
               89.49      1.905E-02      4.555E+01      -2390.032
               84.22      3.925E-10      9.131E-08       -231.606
               81.05      5.809E-23      1.260E-20       -215.974
               80.00      0.000E+00      0.000E+00       -215.974
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.6048631E-03
 entot depart   414421.44       414421.44    
 shsum :  7.90229146E+09  1.14867528E+11  1.14867110E+11  1.14867110E+11
 shsum :  8.00093798E+09  1.26277853E+11  1.14103235E+10  1.26277435E+11
 shsum :  8.04890368E+09  1.33724807E+11  7.44695757E+09  1.33724389E+11
 shsum :  8.41017651E+09  1.49835284E+11  1.61104814E+10  1.49834875E+11
 shsum :  8.41017651E+09  1.49835284E+11   45.617477      1.49834875E+11
 shsum :  8.41017651E+09  1.49835284E+11   2.1702173      1.49834875E+11
 fin  1.49835284E+11  8.41017651E+09   18.674622    
   17.815950    
 -7.86942195E+13   18.674622    
 ezero   0.0000000    
  1.49835284E+11
  4.21396623E+14

Total energy input of :1.571E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.498E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.498E+11)
                                           + heating (elhsum =4.144E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.82 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9489E+11 [eV/cm2/s]
                                                             or : 3.1226E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.471E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.373E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.792E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.809E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.885E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.260E+00 [eV.cm-2.s-1] ("shsum").
  1.17516403E+09           2          21
  1.26484454E+09           2          23

 Total Heating :  4.685E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      8.595E+07          0.000
              286.72     -2.384E+08      1.990E+08          0.000
              258.24     -3.542E+08      4.658E+08          0.000
              231.88      7.272E+17      1.088E+09          1.000
              207.62            NaN      2.436E+09          1.000
              185.47            NaN      4.937E+09          1.000
              165.43      7.324E+17      8.166E+09          1.000
              147.50      1.515E+08      9.202E+09        -59.723
              131.68      4.089E+07      6.534E+09       -158.811
              117.97      3.198E+06      3.826E+09      -1195.434
              106.37      7.238E+17      5.584E+08          1.000
               96.88      9.512E+02      3.772E+06      -3964.999
               89.49      2.482E-01      1.120E+03      -4511.151
               84.22      1.444E-07      3.628E-04      -2511.330
               81.05      2.513E-18      5.405E-16       -214.044
               80.00      2.545E-30      2.893E-37          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0555823E-03
 entot depart   468489.06       468489.06    
 shsum :  9.88509798E+09  1.47117490E+11  1.47117015E+11  1.47117015E+11
 shsum :  1.00008131E+10  1.60849527E+11  1.37320407E+10  1.60849052E+11
 shsum :  1.00556063E+10  1.69641476E+11  8.79194214E+09  1.69641001E+11
 shsum :  1.04542362E+10  1.87735736E+11  1.80942541E+10  1.87735261E+11
 shsum :  1.04542362E+10  1.87735736E+11   48.846214      1.87735261E+11
 shsum :  1.04542362E+10  1.87735736E+11   2.2596226      1.87735261E+11
 fin  1.87735736E+11  1.04542362E+10   18.642403    
   17.957863    
 -6.33075705E+13   18.642403    
 ezero   0.0000000    
  1.87735736E+11
  3.39589105E+14

Total energy input of :1.949E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.877E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.877E+11)
                                           + heating (elhsum =4.685E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.96 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7822E+11 [eV/cm2/s]
                                                             or : 2.8555E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           69

 MAIN : Total energy deposition in [CO2] is 1.328E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.272E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.212E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.725E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.752E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.223E+00 [eV.cm-2.s-1] ("shsum").
  1.13483341E+09           2          21
  1.22087949E+09           2          23

 Total Heating :  4.460E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      8.423E+07          0.000
              286.72     -2.366E+08      1.945E+08          0.000
              258.24     -3.522E+08      4.541E+08          0.000
              231.88      7.272E+17      1.057E+09          1.000
              207.62            NaN      2.357E+09          1.000
              185.47            NaN      4.732E+09          1.000
              165.43      7.324E+17      7.649E+09          1.000
              147.50      1.551E+08      8.273E+09        -52.327
              131.68      3.617E+07      5.737E+09       -157.608
              117.97      2.931E+06      3.245E+09      -1106.020
              106.37      7.238E+17      3.834E+08          1.000
               96.88      5.901E+02      2.115E+06      -3582.499
               89.49      9.056E-02      3.174E+02      -3503.738
               84.22      1.422E-08      2.469E-05      -1735.595
               81.05      1.830E-20      3.946E-18       -214.642
               80.00      7.856E-33      3.074E-40          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.8598115E-03
 entot depart   445992.59       445992.59    
 shsum :  9.00987085E+09  1.32838031E+11  1.32837589E+11  1.32837589E+11
 shsum :  9.11817216E+09  1.45559273E+11  1.27212370E+10  1.45558831E+11
 shsum :  9.17003264E+09  1.53771049E+11  8.21177190E+09  1.53770607E+11
 shsum :  9.55288781E+09  1.71024564E+11  1.72535194E+10  1.71024122E+11
 shsum :  9.55288781E+09  1.71024564E+11   47.516754      1.71024122E+11
 shsum :  9.55288781E+09  1.71024564E+11   2.2229502      1.71024122E+11
 fin  1.71024564E+11  9.55288781E+09   18.656319    
   17.902918    
 -6.92808592E+13   18.656319    
 ezero   0.0000000    
  1.71024564E+11
  3.71353341E+14

Total energy input of :1.782E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.710E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.710E+11)
                                           + heating (elhsum =4.460E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.90 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6043E+11 [eV/cm2/s]
                                                             or : 2.5705E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.177E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.162E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.572E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.630E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.595E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.179E+00 [eV.cm-2.s-1] ("shsum").
  1.08626278E+09           2          21
  1.16796749E+09           2          23

 Total Heating :  4.199E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      8.210E+07          0.000
              286.72     -2.343E+08      1.889E+08          0.000
              258.24     -3.496E+08      4.400E+08          0.000
              231.88      7.272E+17      1.021E+09          1.000
              207.62            NaN      2.264E+09          1.000
              185.47            NaN      4.493E+09          1.000
              165.43      7.324E+17      7.060E+09          1.000
              147.50      1.570E+08      7.269E+09        -45.292
              131.68      3.105E+07      4.920E+09       -157.475
              117.97      2.662E+06      2.639E+09       -990.245
              106.37      7.238E+17      2.368E+08          1.000
               96.88      3.294E+02      1.026E+06      -3113.264
               89.49      2.384E-02      6.078E+01      -2548.878
               84.22      6.860E-10      1.597E-07       -231.776
               81.05      1.014E-22      2.203E-20       -216.152
               80.00      0.000E+00      0.000E+00       -216.152
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.6461144E-03
 entot depart   419872.31       419872.31    
 shsum :  8.07856486E+09  1.17716902E+11  1.17716484E+11  1.17716484E+11
 shsum :  8.17877350E+09  1.29338311E+11  1.16214118E+10  1.29337893E+11
 shsum :  8.22738074E+09  1.36910275E+11  7.57196493E+09  1.36909857E+11
 shsum :  8.59219968E+09  1.53208357E+11  1.62980844E+10  1.53207947E+11
 shsum :  8.59219968E+09  1.53208357E+11   45.953293      1.53207947E+11
 shsum :  8.59219968E+09  1.53208357E+11   2.1790771      1.53207947E+11
 fin  1.53208357E+11  8.59219968E+09   18.671963    
   17.831099    
 -7.70271095E+13   18.671963    
 ezero   0.0000000    
  1.53208357E+11
  4.12528186E+14

Total energy input of :1.604E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.532E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.532E+11)
                                           + heating (elhsum =4.199E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.83 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  55.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4174E+11 [eV/cm2/s]
                                                             or : 2.2709E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.020E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.873E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.522E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.412E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.127E+00 [eV.cm-2.s-1] ("shsum").
  1.02821363E+09           2          21
  1.10480218E+09           2          23

 Total Heating :  3.897E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      7.952E+07          0.000
              286.72     -2.315E+08      1.823E+08          0.000
              258.24     -3.465E+08      4.233E+08          0.000
              231.88      7.272E+17      9.792E+08          1.000
              207.62            NaN      2.157E+09          1.000
              185.47            NaN      4.218E+09          1.000
              165.43      7.324E+17      6.394E+09          1.000
              147.50      1.559E+08      6.204E+09        -38.806
              131.68      2.566E+07      4.097E+09       -158.682
              117.97      2.391E+06      2.022E+09       -844.710
              106.37      7.238E+17      1.267E+08          1.000
               96.88      1.587E+02      4.040E+05      -2545.308
               89.49      3.906E-03      6.619E+00      -1693.653
               84.22      3.572E-12      8.699E-10       -242.552
               81.05      3.890E-25      8.507E-23       -217.712
               80.00      0.000E+00      0.000E+00       -217.712
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.4148782E-03
 entot depart   389724.31       389724.31    
 shsum :  7.10312397E+09  1.01977711E+11  1.01977317E+11  1.01977317E+11
 shsum :  7.19457587E+09  1.12415359E+11  1.04376494E+10  1.12414966E+11
 shsum :  7.23959757E+09  1.19288095E+11  6.87273779E+09  1.19287702E+11
 shsum :  7.58385613E+09  1.34505513E+11  1.52174193E+10  1.34505120E+11
 shsum :  7.58385613E+09  1.34505513E+11   44.118069      1.34505120E+11
 shsum :  7.58385613E+09  1.34505513E+11   2.1265056      1.34505120E+11
 fin  1.34505513E+11  7.58385613E+09   18.689211    
   17.735767    
 -8.72685681E+13   18.689211    
 ezero   0.0000000    
  1.34505513E+11
  4.66946261E+14

Total energy input of :1.417E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.345E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.345E+11)
                                           + heating (elhsum =3.897E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.74 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7140E+11 [eV/cm2/s]
                                                             or : 2.7462E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.270E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.230E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.971E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.690E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.693E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.205E+00 [eV.cm-2.s-1] ("shsum").
  1.12329037E+09           2          21
  1.20877939E+09           2          23

 Total Heating :  4.361E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      8.476E+07          0.000
              286.72     -2.386E+08      1.959E+08          0.000
              258.24     -3.549E+08      4.578E+08          0.000
              231.88      7.272E+17      1.065E+09          1.000
              207.62            NaN      2.364E+09          1.000
              185.47            NaN      4.704E+09          1.000
              165.43      7.324E+17      7.461E+09          1.000
              147.50      1.550E+08      7.831E+09        -49.514
              131.68      3.278E+07      5.364E+09       -162.631
              117.97      2.750E+06      2.969E+09      -1078.596
              106.37      7.238E+17      3.089E+08          1.000
               96.88      4.454E+02      1.532E+06      -3437.539
               89.49      5.049E-02      1.569E+02      -3107.490
               84.22      4.036E-09      5.941E-06      -1470.977
               81.05      4.340E-21      9.373E-19       -214.957
               80.00      1.417E-33      6.503E-41          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.7791369E-03
 entot depart   436149.94       436149.94    
 shsum :  8.65199718E+09  1.27011119E+11  1.27010685E+11  1.27010685E+11
 shsum :  8.75724390E+09  1.39314856E+11  1.23037338E+10  1.39314414E+11
 shsum :  8.80789197E+09  1.47286344E+11  7.97148006E+09  1.47285901E+11
 shsum :  9.18408806E+09  1.64185522E+11  1.68991764E+10  1.64185080E+11
 shsum :  9.18408806E+09  1.64185522E+11   46.926720      1.64185080E+11
 shsum :  9.18408806E+09  1.64185522E+11   2.2054806      1.64185080E+11
 fin  1.64185522E+11  9.18408806E+09   18.662773    
   17.877172    
 -7.20629326E+13   18.662773    
 ezero   0.0000000    
  1.64185522E+11
  3.86131921E+14

Total energy input of :1.714E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.642E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.642E+11)
                                           + heating (elhsum =4.361E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.88 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5704E+11 [eV/cm2/s]
                                                             or : 2.5161E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.148E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.141E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.449E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.611E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.564E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.169E+00 [eV.cm-2.s-1] ("shsum").
  1.08307392E+09           2          21
  1.16498611E+09           2          23

 Total Heating :  4.147E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      8.309E+07          0.000
              286.72     -2.369E+08      1.916E+08          0.000
              258.24     -3.529E+08      4.464E+08          0.000
              231.88      7.272E+17      1.035E+09          1.000
              207.62            NaN      2.286E+09          1.000
              185.47            NaN      4.500E+09          1.000
              165.43      7.324E+17      6.963E+09          1.000
              147.50      1.555E+08      7.016E+09        -44.133
              131.68      2.885E+07      4.719E+09       -162.542
              117.97      2.552E+06      2.490E+09       -974.886
              106.37      7.238E+17      2.053E+08          1.000
               96.88      2.747E+02      8.327E+05      -3030.151
               89.49      1.609E-02      3.815E+01      -2370.122
               84.22      3.021E-10      7.053E-08       -232.438
               81.05      4.408E-23      9.586E-21       -216.455
               80.00      0.000E+00      0.000E+00       -216.455
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.6050140E-03
 entot depart   414651.50       414651.50    
 shsum :  7.90083584E+09  1.14836398E+11  1.14835980E+11  1.14835980E+11
 shsum :  7.99948800E+09  1.26245519E+11  1.14091213E+10  1.26245102E+11
 shsum :  8.04747213E+09  1.33694341E+11  7.44882022E+09  1.33693923E+11
 shsum :  8.40872653E+09  1.49804138E+11  1.61098004E+10  1.49803729E+11
 shsum :  8.40872653E+09  1.49804138E+11   45.637779      1.49803729E+11
 shsum :  8.40872653E+09  1.49804138E+11   2.1692040      1.49803729E+11
 fin  1.49804138E+11  8.40872653E+09   18.675589    
   17.815319    
 -7.87077923E+13   18.675589    
 ezero   0.0000000    
  1.49804138E+11
  4.21447424E+14

Total energy input of :1.570E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.498E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.498E+11)
                                           + heating (elhsum =4.147E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.82 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4173E+11 [eV/cm2/s]
                                                             or : 2.2708E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           97

 MAIN : Total energy deposition in [CO2] is 1.020E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.874E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.522E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.413E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.126E+00 [eV.cm-2.s-1] ("shsum").
  1.03493696E+09           2          21
  1.11259277E+09           2          23

 Total Heating :  3.898E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      8.099E+07          0.000
              286.72     -2.348E+08      1.861E+08          0.000
              258.24     -3.504E+08      4.325E+08          0.000
              231.88      7.272E+17      9.994E+08          1.000
              207.62            NaN      2.195E+09          1.000
              185.47            NaN      4.264E+09          1.000
              165.43      7.324E+17      6.401E+09          1.000
              147.50      1.538E+08      6.147E+09        -38.972
              131.68      2.473E+07      4.058E+09       -163.057
              117.97      2.343E+06      1.994E+09       -850.090
              106.37      7.238E+17      1.223E+08          1.000
               96.88      1.507E+02      3.846E+05      -2550.748
               89.49      3.562E-03      6.008E+00      -1685.394
               84.22      3.125E-12      7.625E-10       -242.967
               81.05      3.378E-25      7.395E-23       -217.932
               80.00      0.000E+00      0.000E+00       -217.932
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.4148999E-03
 entot depart   389848.47       389848.47    
 shsum :  7.10266778E+09  1.01967651E+11  1.01967258E+11  1.01967258E+11
 shsum :  7.19412070E+09  1.12404595E+11  1.04369439E+10  1.12404201E+11
 shsum :  7.23915059E+09  1.19278158E+11  6.87356211E+09  1.19277765E+11
 shsum :  7.58337536E+09  1.34494233E+11  1.52160748E+10  1.34493839E+11
 shsum :  7.58337536E+09  1.34494233E+11   44.128529      1.34493839E+11
 shsum :  7.58337536E+09  1.34494233E+11   2.1259816      1.34493839E+11
 fin  1.34494233E+11  7.58337536E+09   18.689734    
   17.735405    
 -8.72741046E+13   18.689734    
 ezero   0.0000000    
  1.34494233E+11
  4.66962770E+14

Total energy input of :1.417E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.345E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.345E+11)
                                           + heating (elhsum =3.898E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.74 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  60.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2567E+11 [eV/cm2/s]
                                                             or : 2.0134E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 8.860E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.392E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.247E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.421E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.237E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.074E+00 [eV.cm-2.s-1] ("shsum").
  9.77880320E+08           2          21
  1.05054970E+09           2          23

 Total Heating :  3.614E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      7.844E+07          0.000
              286.72     -2.321E+08      1.796E+08          0.000
              258.24     -3.472E+08      4.160E+08          0.000
              231.88      7.272E+17      9.578E+08          1.000
              207.62            NaN      2.089E+09          1.000
              185.47            NaN      3.994E+09          1.000
              165.43      7.324E+17      5.773E+09          1.000
              147.50      1.488E+08      5.238E+09        -34.190
              131.68      2.054E+07      3.390E+09       -164.015
              117.97      2.117E+06      1.498E+09       -706.463
              106.37      7.238E+17      6.303E+07          1.000
               96.88      6.976E+01      1.406E+05      -2014.571
               89.49      4.680E-04      5.105E-01      -1089.765
               84.22      6.474E-14      1.581E-11       -243.256
               81.05      6.486E-27      1.417E-24       -217.388
               80.00      0.000E+00      0.000E+00       -217.388
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.2091926E-03
 entot depart   361448.56       361448.56    
 shsum :  6.26805402E+09  8.86015181E+10  8.86011576E+10  8.86011576E+10
 shsum :  6.35171635E+09  9.79939820E+10  9.39246387E+09  9.79936215E+10
 shsum :  6.39349453E+09  1.04240808E+11  6.24682291E+09  1.04240447E+11
 shsum :  6.71839334E+09  1.18451102E+11  1.42102938E+10  1.18450741E+11
 shsum :  6.71839334E+09  1.18451102E+11   42.366608      1.18450741E+11
 shsum :  6.71839334E+09  1.18451102E+11   2.0744698      1.18450741E+11
 fin  1.18451102E+11  6.71839334E+09   18.705002    
   17.630867    
 -9.85105024E+13   18.705002    
 ezero   0.0000000    
  1.18451102E+11
  5.26653285E+14

Total energy input of :1.257E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.185E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.185E+11)
                                           + heating (elhsum =3.614E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.63 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4702E+11 [eV/cm2/s]
                                                             or : 2.3556E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.064E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.078E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.077E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.554E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.464E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.140E+00 [eV.cm-2.s-1] ("shsum").
  1.05884243E+09           2          21
  1.13911475E+09           2          23

 Total Heating :  3.984E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      8.316E+07          0.000
              286.72     -2.387E+08      1.919E+08          0.000
              258.24     -3.553E+08      4.470E+08          0.000
              231.88      7.272E+17      1.034E+09          1.000
              207.62            NaN      2.272E+09          1.000
              185.47            NaN      4.410E+09          1.000
              165.43      7.324E+17      6.623E+09          1.000
              147.50      1.522E+08      6.383E+09        -40.938
              131.68      2.482E+07      4.231E+09       -169.453
              117.97      2.341E+06      2.120E+09       -904.482
              106.37      7.238E+17      1.395E+08          1.000
               96.88      1.725E+02      4.717E+05      -2733.521
               89.49      5.369E-03      1.018E+01      -1895.007
               84.22      2.826E-11      6.638E-09       -233.850
               81.05      3.993E-24      8.695E-22       -216.795
               80.00      0.000E+00      0.000E+00       -216.795
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.4818284E-03
 entot depart   398430.03       398430.03    
 shsum :  7.37778227E+09  1.06389406E+11  1.06389004E+11  1.06389004E+11
 shsum :  7.47176960E+09  1.17166047E+11  1.07766426E+10  1.17165646E+11
 shsum :  7.51785574E+09  1.24243198E+11  7.07715072E+09  1.24242797E+11
 shsum :  7.86821581E+09  1.39779539E+11  1.55363471E+10  1.39779146E+11
 shsum :  7.86821581E+09  1.39779539E+11   44.644115      1.39779146E+11
 shsum :  7.86821581E+09  1.39779539E+11   2.1396337      1.39779146E+11
 fin  1.39779539E+11  7.86821581E+09   18.685570    
   17.765087    
 -8.41146612E+13   18.685570    
 ezero   0.0000000    
  1.39779539E+11
  4.50158341E+14

Total energy input of :1.470E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.398E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.398E+11)
                                           + heating (elhsum =3.984E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.77 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3508E+11 [eV/cm2/s]
                                                             or : 2.1643E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 9.641E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.001E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.619E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.481E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.341E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.104E+00 [eV.cm-2.s-1] ("shsum").
  1.01932282E+09           2          21
  1.09613107E+09           2          23

 Total Heating :  3.783E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      8.155E+07          0.000
              286.72     -2.372E+08      1.877E+08          0.000
              258.24     -3.535E+08      4.360E+08          0.000
              231.88      7.272E+17      1.006E+09          1.000
              207.62            NaN      2.196E+09          1.000
              185.47            NaN      4.210E+09          1.000
              165.43      7.324E+17      6.157E+09          1.000
              147.50      1.493E+08      5.706E+09        -37.218
              131.68      2.188E+07      3.732E+09       -169.552
              117.97      2.191E+06      1.750E+09       -797.816
              106.37      7.238E+17      8.960E+07          1.000
               96.88      1.038E+02      2.425E+05      -2335.849
               89.49      1.429E-03      2.019E+00      -1412.027
               84.22      5.724E-13      1.400E-10       -243.664
               81.05      5.975E-26      1.309E-23       -218.147
               80.00      0.000E+00      0.000E+00       -218.147
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.3309591E-03
 entot depart   378342.78       378342.78    
 shsum :  6.75654963E+09  9.64090429E+10  9.64086661E+10  9.64086661E+10
 shsum :  6.84482355E+09  1.06417299E+11  1.00082555E+10  1.06416923E+11
 shsum :  6.88854374E+09  1.13036296E+11  6.61899469E+09  1.13035919E+11
 shsum :  7.22500403E+09  1.27846908E+11  1.48106138E+10  1.27846531E+11
 shsum :  7.22500403E+09  1.27846908E+11   43.414169      1.27846531E+11
 shsum :  7.22500403E+09  1.27846908E+11   2.1041276      1.27846531E+11
 fin  1.27846908E+11  7.22500403E+09   18.696774    
   17.695065    
 -9.16030373E+13   18.696774    
 ezero   0.0000000    
  1.27846908E+11
  4.89940308E+14

Total energy input of :1.351E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.278E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.278E+11)
                                           + heating (elhsum =3.783E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.70 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2238E+11 [eV/cm2/s]
                                                             or : 1.9608E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 8.588E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.175E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.116E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.399E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.198E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.062E+00 [eV.cm-2.s-1] ("shsum").
  9.72428608E+08           2          21
  1.04513894E+09           2          23

 Total Heating :  3.554E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      7.951E+07          0.000
              286.72     -2.351E+08      1.824E+08          0.000
              258.24     -3.510E+08      4.225E+08          0.000
              231.88      7.272E+17      9.709E+08          1.000
              207.62            NaN      2.106E+09          1.000
              185.47            NaN      3.981E+09          1.000
              165.43      7.324E+17      5.637E+09          1.000
              147.50      1.442E+08      4.994E+09        -33.635
              131.68      1.888E+07      3.219E+09       -169.459
              117.97      2.019E+06      1.373E+09       -679.049
              106.37      7.238E+17      5.156E+07          1.000
               96.88      5.438E+01      1.035E+05      -1902.963
               89.49      2.528E-04      2.473E-01       -977.331
               84.22      9.664E-15      2.390E-12       -246.336
               81.05      6.651E-28      1.423E-25       -212.889
               80.00      0.000E+00      0.000E+00       -212.889
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.1662703E-03
 entot depart   355357.00       355357.00    
 shsum :  6.09751808E+09  8.58821673E+10  8.58818150E+10  8.58818150E+10
 shsum :  6.17955533E+09  9.50570353E+10  9.17487002E+09  9.50566830E+10
 shsum :  6.22065562E+09  1.01173404E+11  6.11636941E+09  1.01173051E+11
 shsum :  6.54135040E+09  1.15166716E+11  1.39933143E+10  1.15166364E+11
 shsum :  6.54135040E+09  1.15166716E+11   41.982056      1.15166364E+11
 shsum :  6.54135040E+09  1.15166716E+11   2.0620642      1.15166364E+11
 fin  1.15166716E+11  6.54135040E+09   18.708872    
   17.605955    
 -1.01176704E+14   18.708872    
 ezero   0.0000000    
  1.15166716E+11
  5.40795304E+14

Total energy input of :1.224E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.152E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.152E+11)
                                           + heating (elhsum =3.554E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.61 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  65.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0907E+11 [eV/cm2/s]
                                                             or : 1.7476E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 7.497E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.282E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.571E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.308E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.032E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.012E+00 [eV.cm-2.s-1] ("shsum").
  9.17432512E+08           2          21
  9.85379392E+08           2          23

 Total Heating :  3.293E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      7.701E+07          0.000
              286.72     -2.325E+08      1.760E+08          0.000
              258.24     -3.478E+08      4.064E+08          0.000
              231.88      7.272E+17      9.302E+08          1.000
              207.62            NaN      2.003E+09          1.000
              185.47            NaN      3.720E+09          1.000
              165.43      7.324E+17      5.063E+09          1.000
              147.50      1.361E+08      4.261E+09        -30.312
              131.68      1.591E+07      2.698E+09       -168.566
              117.97      1.813E+06      1.004E+09       -552.669
              106.37      7.238E+17      2.584E+07          1.000
               96.88      2.333E+01      3.400E+04      -1456.412
               89.49      2.521E-05      1.555E-02       -615.942
               84.22      2.392E-16      5.912E-14       -246.123
               81.05      1.457E-29      8.116E-29         -4.571
               80.00      0.000E+00      0.000E+00         -4.571
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.9882265E-03
 entot depart   329296.78       329296.78    
 shsum :  5.40968704E+09  7.49747405E+10  7.49744128E+10  7.49744128E+10
 shsum :  5.48498176E+09  8.32566641E+10  8.28192307E+09  8.32563364E+10
 shsum :  5.52320410E+09  8.88276828E+10  5.57101568E+09  8.88273551E+10
 shsum :  5.82611610E+09  1.01907251E+11  1.30795663E+10  1.01906924E+11
 shsum :  5.82611610E+09  1.01907251E+11   40.322380      1.01906924E+11
 shsum :  5.82611610E+09  1.01907251E+11   2.0123038      1.01906924E+11
 fin  1.01907251E+11  5.82611610E+09   18.721567    
   17.491455    
 -1.13597515E+14   18.721567    
 ezero   0.0000000    
  1.01907251E+11
  6.06773518E+14

Total energy input of :1.091E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.019E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.019E+11)
                                           + heating (elhsum =3.293E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.49 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2212E+11 [eV/cm2/s]
                                                             or : 1.9566E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 8.566E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.159E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.108E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.398E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.191E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.059E+00 [eV.cm-2.s-1] ("shsum").
  9.78521216E+08           2          21
  1.05231155E+09           2          23

 Total Heating :  3.545E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      8.106E+07          0.000
              286.72     -2.388E+08      1.866E+08          0.000
              258.24     -3.556E+08      4.330E+08          0.000
              231.88      7.272E+17      9.949E+08          1.000
              207.62            NaN      2.152E+09          1.000
              185.47            NaN      4.037E+09          1.000
              165.43      7.324E+17      5.636E+09          1.000
              147.50      1.399E+08      4.913E+09        -34.112
              131.68      1.769E+07      3.161E+09       -177.727
              117.97      1.938E+06      1.323E+09       -681.369
              106.37      7.238E+17      4.698E+07          1.000
               96.88      4.777E+01      9.050E+04      -1893.620
               89.49      1.949E-04      1.867E-01       -956.920
               84.22      6.684E-15      1.660E-12       -247.332
               81.05      4.500E-28      9.598E-26       -212.291
               80.00      0.000E+00      0.000E+00       -212.291
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.1634386E-03
 entot depart   354520.53       354520.53    
 shsum :  6.08354099E+09  8.56569364E+10  8.56565842E+10  8.56565842E+10
 shsum :  6.16547072E+09  9.48155269E+10  9.15859149E+09  9.48151747E+10
 shsum :  6.20653875E+09  1.00924023E+11  6.10849843E+09  1.00923671E+11
 shsum :  6.52700877E+09  1.14904744E+11  1.39807252E+10  1.14904400E+11
 shsum :  6.52700877E+09  1.14904744E+11   41.912678      1.14904400E+11
 shsum :  6.52700877E+09  1.14904744E+11   2.0585446      1.14904400E+11
 fin  1.14904744E+11  6.52700877E+09   18.710310    
   17.604504    
 -1.01399019E+14   18.710310    
 ezero   0.0000000    
  1.14904744E+11
  5.41941993E+14

Total energy input of :1.221E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.149E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.149E+11)
                                           + heating (elhsum =3.545E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.60 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1270E+11 [eV/cm2/s]
                                                             or : 1.8057E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 7.792E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.527E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.723E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.334E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.077E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.024E+00 [eV.cm-2.s-1] ("shsum").
  9.40725056E+08           2          21
  1.01125286E+09           2          23

 Total Heating :  3.364E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      7.952E+07          0.000
              286.72     -2.374E+08      1.825E+08          0.000
              258.24     -3.538E+08      4.225E+08          0.000
              231.88      7.272E+17      9.673E+08          1.000
              207.62            NaN      2.079E+09          1.000
              185.47            NaN      3.846E+09          1.000
              165.43      7.324E+17      5.220E+09          1.000
              147.50      1.342E+08      4.395E+09        -31.739
              131.68      1.577E+07      2.795E+09       -176.269
              117.97      1.807E+06      1.067E+09       -589.634
              106.37      7.238E+17      2.939E+07          1.000
               96.88      2.702E+01      4.253E+04      -1572.860
               89.49      4.094E-05      2.853E-02       -695.925
               84.22      5.396E-16      1.338E-13       -246.925
               81.05      3.373E-29      5.420E-27       -159.717
               80.00      0.000E+00      0.000E+00       -159.717
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.0376456E-03
 entot depart   336436.13       336436.13    
 shsum :  5.59636429E+09  7.79251876E+10  7.79248517E+10  7.79248517E+10
 shsum :  5.67353037E+09  8.64525517E+10  8.52736000E+09  8.64522076E+10
 shsum :  5.71256678E+09  9.21758188E+10  5.72326349E+09  9.21754747E+10
 shsum :  6.02048410E+09  1.05511567E+11  1.33357507E+10  1.05511223E+11
 shsum :  6.02048410E+09  1.05511567E+11   40.769737      1.05511223E+11
 shsum :  6.02048410E+09  1.05511567E+11   2.0244620      1.05511223E+11
 fin  1.05511567E+11  6.02048410E+09   18.719284    
   17.525429    
 -1.09930074E+14   18.719284    
 ezero   0.0000000    
  1.05511567E+11
  5.87255844E+14

Total energy input of :1.127E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.055E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.055E+11)
                                           + heating (elhsum =3.364E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.53 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0269E+11 [eV/cm2/s]
                                                             or : 1.6453E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 6.979E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.845E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.303E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.261E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.945E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.984E+00 [eV.cm-2.s-1] ("shsum").
  8.96389824E+08           2          21
  9.63090560E+08           2          23

 Total Heating :  3.160E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      7.756E+07          0.000
              286.72     -2.354E+08      1.775E+08          0.000
              258.24     -3.514E+08      4.096E+08          0.000
              231.88      7.272E+17      9.340E+08          1.000
              207.62            NaN      1.993E+09          1.000
              185.47            NaN      3.629E+09          1.000
              165.43      7.324E+17      4.763E+09          1.000
              147.50      1.267E+08      3.857E+09        -29.449
              131.68      1.386E+07      2.418E+09       -173.502
              117.97      1.645E+06      8.144E+08       -493.983
              106.37      7.238E+17      1.659E+07          1.000
               96.88      1.296E+01      1.617E+04      -1246.529
               89.49      5.470E-06      2.597E-03       -473.748
               84.22      1.531E-17      3.798E-15       -247.095
               81.05      5.900E-31      7.354E-37          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.9005092E-03
 entot depart   315958.09       315958.09    
 shsum :  5.08047923E+09  6.97888276E+10  6.97885082E+10  6.97885082E+10
 shsum :  5.15245210E+09  7.76336097E+10  7.84478362E+09  7.76332902E+10
 shsum :  5.18924646E+09  8.29362422E+10  5.30263040E+09  8.29359227E+10
 shsum :  5.48302797E+09  9.55510129E+10  1.26147686E+10  9.55506934E+10
 shsum :  5.48302797E+09  9.55510129E+10   39.449234      9.55506934E+10
 shsum :  5.48302797E+09  9.55510129E+10   1.9844187      9.55506934E+10
 fin  9.55510129E+10  5.48302797E+09   18.728693    
   17.426687    
 -1.20705618E+14   18.728693    
 ezero   0.0000000    
  9.55510129E+10
  6.44495679E+14

Total energy input of :1.027E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.555E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.555E+10)
                                           + heating (elhsum =3.160E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  17.43 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  70.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.2225E+10 [eV/cm2/s]
                                                             or : 1.4776E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 6.138E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.116E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.849E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.182E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.793E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.938E+00 [eV.cm-2.s-1] ("shsum").
  8.45089728E+08           2          21
  9.07387008E+08           2          23

 Total Heating :  2.930E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      7.515E+07          0.000
              286.72     -2.329E+08      1.714E+08          0.000
              258.24     -3.482E+08      3.941E+08          0.000
              231.88      7.272E+17      8.950E+08          1.000
              207.62            NaN      1.894E+09          1.000
              185.47            NaN      3.384E+09          1.000
              165.43      7.324E+17      4.267E+09          1.000
              147.50      1.169E+08      3.311E+09        -27.325
              131.68      1.199E+07      2.033E+09       -168.508
              117.97      1.443E+06      5.759E+08       -398.131
              106.37      7.238E+17      8.290E+06          1.000
               96.88      4.908E+00      4.576E+03       -931.273
               89.49      3.993E-07      1.220E-04       -304.466
               84.22      3.100E-19      7.720E-17       -248.055
               81.05      5.871E-33      2.471E-39          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.7525719E-03
 entot depart   293020.91       293020.91    
 shsum :  4.54307226E+09  6.13789450E+10  6.13786501E+10  6.13786501E+10
 shsum :  4.60944230E+09  6.84951962E+10  7.11625267E+09  6.84949012E+10
 shsum :  4.64378214E+09  7.33439181E+10  4.84871885E+09  7.33436232E+10
 shsum :  4.92175053E+09  8.51594691E+10  1.18155479E+10  8.51591741E+10
 shsum :  4.92175053E+09  8.51594691E+10   37.933640      8.51591741E+10
 shsum :  4.92175053E+09  8.51594691E+10   1.9375288      8.51591741E+10
 fin  8.51594691E+10  4.92175053E+09   18.738218    
   17.302679    
 -1.34470913E+14   18.738218    
 ezero   0.0000000    
  8.51594691E+10
  7.17629107E+14

Total energy input of :9.222E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.516E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.516E+10)
                                           + heating (elhsum =2.930E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.30 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.7177E+10 [eV/cm2/s]
                                                             or : 1.5570E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 6.534E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.463E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.068E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.220E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.861E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.957E+00 [eV.cm-2.s-1] ("shsum").
  8.78002304E+08           2          21
  9.43735488E+08           2          23

 Total Heating :  3.036E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      7.830E+07          0.000
              286.72     -2.388E+08      1.796E+08          0.000
              258.24     -3.557E+08      4.145E+08          0.000
              231.88      7.272E+17      9.428E+08          1.000
              207.62            NaN      1.994E+09          1.000
              185.47            NaN      3.559E+09          1.000
              165.43      7.324E+17      4.493E+09          1.000
              147.50      1.157E+08      3.501E+09        -29.254
              131.68      1.195E+07      2.168E+09       -180.494
              117.97      1.458E+06      6.491E+08       -444.221
              106.37      7.238E+17      1.044E+07          1.000
               96.88      6.713E+00      7.184E+03      -1069.090
               89.49      1.050E-06      3.893E-04       -369.615
               84.22      1.707E-18      4.257E-16       -248.426
               81.05      5.582E-32      4.279E-38          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.8236894E-03
 entot depart   303608.63       303608.63    
 shsum :  4.79641600E+09  6.53362831E+10  6.53359800E+10  6.53359800E+10
 shsum :  4.86547968E+09  7.27996088E+10  7.46332723E+09  7.27993057E+10
 shsum :  4.90101811E+09  7.78673439E+10  5.06773299E+09  7.78670408E+10
 shsum :  5.18669056E+09  9.00705075E+10  1.22031657E+10  9.00702044E+10
 shsum :  5.18669056E+09  9.00705075E+10   38.612450      9.00702044E+10
 shsum :  5.18669056E+09  9.00705075E+10   1.9568176      9.00702044E+10
 fin  9.00705075E+10  5.18669056E+09   18.735794    
   17.365700    
 -1.27602036E+14   18.735794    
 ezero   0.0000000    
  9.00705075E+10
  6.81060212E+14

Total energy input of :9.718E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.007E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.007E+10)
                                           + heating (elhsum =3.036E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.37 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.0318E+10 [eV/cm2/s]
                                                             or : 1.4471E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 5.985E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.981E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.766E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.166E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.760E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.925E+00 [eV.cm-2.s-1] ("shsum").
  8.43719936E+08           2          21
  9.06538432E+08           2          23

 Total Heating :  2.884E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      7.687E+07          0.000
              286.72     -2.375E+08      1.758E+08          0.000
              258.24     -3.539E+08      4.048E+08          0.000
              231.88      7.272E+17      9.170E+08          1.000
              207.62            NaN      1.926E+09          1.000
              185.47            NaN      3.386E+09          1.000
              165.43      7.324E+17      4.154E+09          1.000
              147.50      1.090E+08      3.151E+09        -27.916
              131.68      1.092E+07      1.922E+09       -175.044
              117.97      1.329E+06      5.089E+08       -381.928
              106.37      7.238E+17      6.546E+06          1.000
               96.88      3.386E+00      2.955E+03       -871.498
               89.49      1.686E-07      4.689E-05       -277.130
               84.22      1.129E-19      2.823E-17       -249.140
               81.05      1.798E-33      7.804E-40          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.7252777E-03
 entot depart   288373.19       288373.19    
 shsum :  4.44489011E+09  5.98541681E+10  5.98538813E+10  5.98538813E+10
 shsum :  4.51022694E+09  6.68355215E+10  6.98135347E+09  6.68352348E+10
 shsum :  4.54412032E+09  7.16012012E+10  4.76567859E+09  7.16009144E+10
 shsum :  4.81905562E+09  8.32646676E+10  1.16634675E+10  8.32643809E+10
 shsum :  4.81905562E+09  8.32646676E+10   37.601189      8.32643809E+10
 shsum :  4.81905562E+09  8.32646676E+10   1.9253625      8.32643809E+10
 fin  8.32646676E+10  4.81905562E+09   18.741894    
   17.278214    
 -1.37336512E+14   18.741894    
 ezero   0.0000000    
  8.32646676E+10
  7.32778195E+14

Total energy input of :9.032E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.326E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.326E+10)
                                           + heating (elhsum =2.884E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.28 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.3045E+10 [eV/cm2/s]
                                                             or : 1.3306E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 5.410E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.462E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.438E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.107E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.645E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.889E+00 [eV.cm-2.s-1] ("shsum").
  8.04068928E+08           2          21
  8.63503936E+08           2          23

 Total Heating :  2.713E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      7.502E+07          0.000
              286.72     -2.357E+08      1.711E+08          0.000
              258.24     -3.514E+08      3.927E+08          0.000
              231.88      7.272E+17      8.860E+08          1.000
              207.62            NaN      1.846E+09          1.000
              185.47            NaN      3.191E+09          1.000
              165.43      7.324E+17      3.788E+09          1.000
              147.50      1.011E+08      2.792E+09        -26.610
              131.68      9.904E+06      1.666E+09       -167.252
              117.97      1.172E+06      3.756E+08       -319.569
              106.37      7.238E+17      3.755E+06          1.000
               96.88      1.394E+00      9.555E+02       -684.236
               89.49      1.741E-08      3.684E-06       -210.616
               84.22      8.075E-21      2.023E-18       -249.484
               81.05      4.351E-35      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.6182994E-03
 entot depart   271342.13       271342.13    
 shsum :  4.07321830E+09  5.40965437E+10  5.40962734E+10  5.40962734E+10
 shsum :  4.13450368E+09  6.05589012E+10  6.46235699E+09  6.05586309E+10
 shsum :  4.16658995E+09  6.49967534E+10  4.43785318E+09  6.49964831E+10
 shsum :  4.42954906E+09  7.60626381E+10  1.10658857E+10  7.60623677E+10
 shsum :  4.42954906E+09  7.60626381E+10   36.445438      7.60623677E+10
 shsum :  4.42954906E+09  7.60626381E+10   1.8888500      7.60623677E+10
 fin  7.60626381E+10  4.42954906E+09   18.748022    
   17.171644    
 -1.49413020E+14   18.748022    
 ezero   0.0000000    
  7.60626381E+10
  7.96953462E+14

Total energy input of :8.305E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.606E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.606E+10)
                                           + heating (elhsum =2.713E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  75.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.5454E+10 [eV/cm2/s]
                                                             or : 1.2089E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 4.816E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.911E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.086E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.041E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.514E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.847E+00 [eV.cm-2.s-1] ("shsum").
  7.58942720E+08           2          21
  8.14532800E+08           2          23

 Total Heating :  2.525E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      7.276E+07          0.000
              286.72     -2.333E+08      1.654E+08          0.000
              258.24     -3.481E+08      3.783E+08          0.000
              231.88      7.272E+17      8.498E+08          1.000
              207.62            NaN      1.755E+09          1.000
              185.47            NaN      2.976E+09          1.000
              165.43      7.324E+17      3.401E+09          1.000
              147.50      9.210E+07      2.429E+09        -25.378
              131.68      8.919E+06      1.404E+09       -156.416
              117.97      9.848E+05      2.563E+08       -259.233
              106.37      7.238E+17      1.933E+06          1.000
               96.88      4.216E-01      2.235E+02       -529.115
               89.49      1.091E-09      1.735E-07       -157.970
               84.22      2.943E-22      7.420E-20       -251.109
               81.05      0.000E+00      0.000E+00       -251.109
               80.00      0.000E+00      0.000E+00       -251.109
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.5033572E-03
 entot depart   252539.44       252539.44    
 shsum :  3.68659251E+09  4.81563034E+10  4.81560494E+10  4.81560494E+10
 shsum :  3.74352486E+09  5.40675318E+10  5.91122688E+09  5.40672778E+10
 shsum :  3.77364454E+09  5.81540168E+10  4.08648576E+09  5.81537628E+10
 shsum :  4.02335514E+09  6.85647094E+10  1.04106926E+10  6.85644554E+10
 shsum :  4.02335514E+09  6.85647094E+10   35.135811      6.85644554E+10
 shsum :  4.02335514E+09  6.85647094E+10   1.8466971      6.85644554E+10
 fin  6.85647094E+10  4.02335514E+09   18.753986    
   17.041676    
 -1.64497600E+14   18.753986    
 ezero   0.0000000    
  6.85647094E+10
  8.77134059E+14

Total energy input of :7.545E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.856E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.856E+10)
                                           + heating (elhsum =2.525E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.04 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.2850E+10 [eV/cm2/s]
                                                             or : 1.1672E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 4.613E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.719E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.965E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.018E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.458E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.826E+00 [eV.cm-2.s-1] ("shsum").
  7.52159552E+08           2          21
  8.07902976E+08           2          23

 Total Heating :  2.452E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      7.460E+07          0.000
              286.72     -2.389E+08      1.703E+08          0.000
              258.24     -3.549E+08      3.898E+08          0.000
              231.88      7.272E+17      8.724E+08          1.000
              207.62            NaN      1.782E+09          1.000
              185.47            NaN      2.944E+09          1.000
              165.43      7.324E+17      3.228E+09          1.000
              147.50      8.128E+07      2.247E+09        -26.641
              131.68      7.900E+06      1.268E+09       -159.533
              117.97      8.262E+05      1.991E+08       -239.989
              106.37      7.238E+17      1.281E+06          1.000
               96.88      1.730E-01      8.915E+01       -514.252
               89.49      2.191E-10      3.541E-08       -160.657
               84.22      5.135E-23      1.305E-20       -253.163
               81.05      0.000E+00      0.000E+00       -253.163
               80.00      0.000E+00      0.000E+00       -253.163
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.4634070E-03
 entot depart   245238.92       245238.92    
 shsum :  3.55345024E+09  4.61338788E+10  4.61336330E+10  4.61336330E+10
 shsum :  3.60886963E+09  5.18532710E+10  5.71939328E+09  5.18530253E+10
 shsum :  3.63831219E+09  5.58185144E+10  3.96524518E+09  5.58182687E+10
 shsum :  3.88326579E+09  6.59956204E+10  1.01771039E+10  6.59953746E+10
 shsum :  3.88326579E+09  6.59956204E+10   34.576759      6.59953746E+10
 shsum :  3.88326579E+09  6.59956204E+10   1.8259597      6.59953746E+10
 fin  6.59956204E+10  3.88326579E+09   18.759905    
   16.994877    
 -1.70431886E+14   18.759905    
 ezero   0.0000000    
  6.59956204E+10
  9.08490139E+14

Total energy input of :7.285E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.600E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.600E+10)
                                           + heating (elhsum =2.452E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  16.99 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.8536E+10 [eV/cm2/s]
                                                             or : 1.0981E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 4.281E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.399E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.758E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.777E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.377E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.799E+00 [eV.cm-2.s-1] ("shsum").
  7.24381184E+08           2          21
  7.77791808E+08           2          23

 Total Heating :  2.340E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      7.333E+07          0.000
              286.72     -2.377E+08      1.670E+08          0.000
              258.24     -3.531E+08      3.813E+08          0.000
              231.88      7.272E+17      8.499E+08          1.000
              207.62            NaN      1.723E+09          1.000
              185.47            NaN      2.804E+09          1.000
              165.43      7.324E+17      2.998E+09          1.000
              147.50      7.620E+07      2.053E+09        -25.945
              131.68      7.495E+06      1.127E+09       -149.321
              117.97      7.239E+05      1.521E+08       -209.052
              106.37      7.238E+17      8.271E+05          1.000
               96.88      5.272E-02      3.104E+01       -587.816
               89.49      3.438E-11      5.616E-09       -162.329
               84.22      6.344E-24      1.620E-21       -254.334
               81.05      0.000E+00      0.000E+00       -254.334
               80.00      0.000E+00      0.000E+00       -254.334
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.3953896E-03
 entot depart   234006.95       234006.95    
 shsum :  3.33491968E+09  4.28148654E+10  4.28146319E+10  4.28146319E+10
 shsum :  3.38776346E+09  4.82138604E+10  5.39899392E+09  4.82136269E+10
 shsum :  3.41601946E+09  5.19719363E+10  3.75807590E+09  5.19717028E+10
 shsum :  3.65276390E+09  6.17489285E+10  9.77699328E+09  6.17486950E+10
 shsum :  3.65276390E+09  6.17489285E+10   33.771149      6.17486950E+10
 shsum :  3.65276390E+09  6.17489285E+10   1.7994609      6.17486950E+10
 fin  6.17489285E+10  3.65276390E+09   18.762836    
   16.904715    
 -1.81186719E+14   18.762836    
 ezero   0.0000000    
  6.17489285E+10
  9.65668032E+14

Total energy input of :6.854E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.175E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.175E+10)
                                           + heating (elhsum =2.340E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  16.90 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.3964E+10 [eV/cm2/s]
                                                             or : 1.0248E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 3.933E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.056E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.535E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.339E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.286E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.769E+00 [eV.cm-2.s-1] ("shsum").
  6.92765632E+08           2          21
  7.43497664E+08           2          23

 Total Heating :  2.216E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.090E+09      7.169E+07          0.000
              286.72     -2.359E+08      1.628E+08          0.000
              258.24     -3.504E+08      3.706E+08          0.000
              231.88      7.272E+17      8.228E+08          1.000
              207.62            NaN      1.655E+09          1.000
              185.47            NaN      2.650E+09          1.000
              165.43      7.324E+17      2.755E+09          1.000
              147.50      7.079E+07      1.855E+09        -25.206
              131.68      7.095E+06      9.801E+08       -137.140
              117.97      6.102E+05      1.096E+08       -178.559
              106.37      7.238E+17      4.896E+05          1.000
               96.88     -7.300E-03      8.419E+00          1.000
               89.49      4.968E-12      8.112E-10       -162.298
               84.22      7.728E-25      1.975E-22       -254.609
               81.05      0.000E+00      0.000E+00       -254.609
               80.00      0.000E+00      0.000E+00       -254.609
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.3217956E-03
 entot depart   221635.02       221635.02    
 shsum :  3.10385434E+09  3.93290711E+10  3.93288499E+10  3.93288499E+10
 shsum :  3.15391104E+09  4.43847107E+10  5.05564006E+09  4.43844895E+10
 shsum :  3.18087219E+09  4.79194194E+10  3.53471027E+09  4.79191982E+10
 shsum :  3.40857395E+09  5.72585492E+10  9.33912781E+09  5.72583281E+10
 shsum :  3.40857395E+09  5.72585492E+10   32.864193      5.72583281E+10
 shsum :  3.40857395E+09  5.72585492E+10   1.7692449      5.72583281E+10
 fin  5.72585492E+10  3.40857395E+09   18.765659    
   16.798388    
 -1.94166915E+14   18.765659    
 ezero   0.0000000    
  5.72585492E+10
  1.03469272E+15

Total energy input of :6.396E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.726E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.726E+10)
                                           + heating (elhsum =2.216E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  16.80 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  80.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.9192E+10 [eV/cm2/s]
                                                             or : 9.4838E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 3.573E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.693E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.297E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.865E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.185E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.735E+00 [eV.cm-2.s-1] ("shsum").
  6.57424320E+08           2          21
  7.05152832E+08           2          23

 Total Heating :  2.082E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      6.966E+07          0.000
              286.72     -2.335E+08      1.577E+08          0.000
              258.24     -3.470E+08      3.579E+08          0.000
              231.88      7.272E+17      7.913E+08          1.000
              207.62            NaN      1.579E+09          1.000
              185.47            NaN      2.483E+09          1.000
              165.43      7.324E+17      2.504E+09          1.000
              147.50      6.508E+07      1.655E+09        -24.431
              131.68      6.691E+06      8.302E+08       -123.076
              117.97      4.891E+05      7.356E+07       -149.407
              106.37      7.238E+17      2.596E+05          1.000
               96.88     -3.122E-02      1.677E+00          1.000
               89.49      5.207E-13      8.513E-11       -162.504
               84.22      5.893E-26      1.515E-23       -256.107
               81.05      0.000E+00      0.000E+00       -256.107
               80.00      0.000E+00      0.000E+00       -256.107
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.2431680E-03
 entot depart   208189.95       208189.95    
 shsum :  2.86336000E+09  3.57300716E+10  3.57298627E+10  3.57298627E+10
 shsum :  2.91043891E+09  4.04229980E+10  4.69292493E+09  4.04227891E+10
 shsum :  2.93600179E+09  4.37200527E+10  3.29705498E+09  4.37198438E+10
 shsum :  3.15384320E+09  5.25853860E+10  8.86533222E+09  5.25851771E+10
 shsum :  3.15384320E+09  5.25853860E+10   31.853500      5.25851771E+10
 shsum :  3.15384320E+09  5.25853860E+10   1.7350490      5.25851771E+10
 fin  5.25853860E+10  3.15384320E+09   18.768291    
   16.673431    
 -2.09849451E+14   18.768291    
 ezero   0.0000000    
  5.25853860E+10
  1.11810635E+15

Total energy input of :5.919E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.259E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.259E+10)
                                           + heating (elhsum =2.082E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  16.67 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.0150E+10 [eV/cm2/s]
                                                             or : 8.0350E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.905E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.991E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.833E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.903E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.960E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.653E+00 [eV.cm-2.s-1] ("shsum").
  5.96941248E+08           2          21
  6.40505984E+08           2          23

 Total Heating :  1.804E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      6.949E+07          0.000
              286.72     -2.388E+08      1.574E+08          0.000
              258.24     -3.518E+08      3.555E+08          0.000
              231.88      7.272E+17      7.741E+08          1.000
              207.62            NaN      1.489E+09          1.000
              185.47            NaN      2.169E+09          1.000
              165.43      7.324E+17      1.963E+09          1.000
              147.50      4.617E+07      1.232E+09        -25.691
              131.68      5.290E+06      5.101E+08        -95.425
              117.97      2.158E+05      2.246E+07       -103.093
              106.37      7.238E+17      3.918E+04          1.000
               96.88     -3.995E-02      1.579E-02          1.000
               89.49      1.902E-15      3.165E-13       -165.426
               84.22      1.076E-28      2.570E-26       -237.827
               81.05      0.000E+00      0.000E+00       -237.827
               80.00      0.000E+00      0.000E+00       -237.827
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.0884290E-03
 entot depart   180387.09       180387.09    
 shsum :  2.40859648E+09  2.90480415E+10  2.90478612E+10  2.90478612E+10
 shsum :  2.44981555E+09  3.30391941E+10  3.99115341E+09  3.30390139E+10
 shsum :  2.47258624E+09  3.58721864E+10  2.83299226E+09  3.58720061E+10
 shsum :  2.67006925E+09  4.37747671E+10  7.90258074E+09  4.37745869E+10
 shsum :  2.67006925E+09  4.37747671E+10   29.595280      4.37745869E+10
 shsum :  2.67006925E+09  4.37747671E+10   1.6525931      4.37745869E+10
 fin  4.37747671E+10  2.67006925E+09   18.782253    
   16.394619    
 -2.47870834E+14   18.782253    
 ezero   0.0000000    
  4.37747671E+10
  1.31970762E+15

Total energy input of :5.015E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.377E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.377E+10)
                                           + heating (elhsum =1.804E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  16.39 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.8226E+10 [eV/cm2/s]
                                                             or : 7.7268E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.765E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.840E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.731E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.686E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.912E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.636E+00 [eV.cm-2.s-1] ("shsum").
  5.80254720E+08           2          21
  6.22415808E+08           2          23

 Total Heating :  1.745E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      6.852E+07          0.000
              286.72     -2.377E+08      1.549E+08          0.000
              258.24     -3.499E+08      3.492E+08          0.000
              231.88      7.272E+17      7.577E+08          1.000
              207.62            NaN      1.449E+09          1.000
              185.47            NaN      2.087E+09          1.000
              165.43      7.324E+17      1.863E+09          1.000
              147.50      4.451E+07      1.161E+09        -25.079
              131.68      5.175E+06      4.607E+08        -88.023
              117.97      1.867E+05      1.780E+07        -94.326
              106.37      7.238E+17      2.630E+04          1.000
               96.88     -4.004E-02      6.203E-03          1.000
               89.49      6.889E-16      1.145E-13       -165.223
               84.22      3.480E-29      7.191E-27       -205.649
               81.05      0.000E+00      0.000E+00       -205.649
               80.00      0.000E+00      0.000E+00       -205.649
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.0542020E-03
 entot depart   174510.19       174510.19    
 shsum :  2.31265075E+09  2.76515287E+10  2.76513546E+10  2.76513546E+10
 shsum :  2.35257370E+09  3.14910822E+10  3.83955354E+09  3.14909082E+10
 shsum :  2.37471206E+09  3.42220964E+10  2.73101517E+09  3.42219244E+10
 shsum :  2.56754918E+09  4.19080233E+10  7.68592691E+09  4.19078513E+10
 shsum :  2.56754918E+09  4.19080233E+10   29.118870      4.19078513E+10
 shsum :  2.56754918E+09  4.19080233E+10   1.6357425      4.19078513E+10
 fin  4.19080233E+10  2.56754918E+09   18.782904    
   16.322189    
 -2.57768099E+14   18.782904    
 ezero   0.0000000    
  4.19080233E+10
  1.37235493E+15

Total energy input of :4.823E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.191E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.191E+10)
                                           + heating (elhsum =1.745E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  16.32 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.6175E+10 [eV/cm2/s]
                                                             or : 7.3982E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 2.617E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.677E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.621E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.452E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.859E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.617E+00 [eV.cm-2.s-1] ("shsum").
  5.61439296E+08           2          21
  6.01988672E+08           2          23

 Total Heating :  1.681E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.091E+09      6.723E+07          0.000
              286.72     -2.360E+08      1.517E+08          0.000
              258.24     -3.473E+08      3.411E+08          0.000
              231.88      7.272E+17      7.380E+08          1.000
              207.62            NaN      1.403E+09          1.000
              185.47            NaN      2.000E+09          1.000
              165.43      7.324E+17      1.760E+09          1.000
              147.50      4.286E+07      1.087E+09        -24.360
              131.68      5.046E+06      4.099E+08        -80.231
              117.97      1.570E+05      1.360E+07        -85.636
              106.37      7.238E+17      1.643E+04          1.000
               96.88     -4.008E-02      2.164E-03          1.000
               89.49      2.197E-16      3.650E-14       -165.131
               84.22      9.674E-30      5.382E-29         -4.563
               81.05      0.000E+00      0.000E+00         -4.563
               80.00      0.000E+00      0.000E+00         -4.563
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.0172834E-03
 entot depart   168113.42       168113.42    
 shsum :  2.21053901E+09  2.61727068E+10  2.61725389E+10  2.61725389E+10
 shsum :  2.24906368E+09  2.98498867E+10  3.67718067E+09  2.98497188E+10
 shsum :  2.27051648E+09  3.24713206E+10  2.62143386E+09  3.24711526E+10
 shsum :  2.45831040E+09  3.99229665E+10  7.45164390E+09  3.99227945E+10
 shsum :  2.45831040E+09  3.99229665E+10   28.592701      3.99227945E+10
 shsum :  2.45831040E+09  3.99229665E+10   1.6170273      3.99227945E+10
 fin  3.99229665E+10  2.45831040E+09   18.783384    
   16.240002    
 -2.69222425E+14   18.783384    
 ezero   0.0000000    
  3.99229665E+10
  1.43330092E+15

Total energy input of :4.618E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.992E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.992E+10)
                                           + heating (elhsum =1.681E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  16.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  85.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.4021E+10 [eV/cm2/s]
                                                             or : 7.0530E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.463E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.506E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.505E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.201E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.802E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.596E+00 [eV.cm-2.s-1] ("shsum").
  5.40627776E+08           2          21
  5.79375936E+08           2          23

 Total Heating :  1.612E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      6.562E+07          0.000
              286.72     -2.336E+08      1.477E+08          0.000
              258.24     -3.438E+08      3.313E+08          0.000
              231.88      7.272E+17      7.150E+08          1.000
              207.62            NaN      1.353E+09          1.000
              185.47            NaN      1.908E+09          1.000
              165.43      7.324E+17      1.655E+09          1.000
              147.50      4.122E+07      1.012E+09        -23.544
              131.68      4.896E+06      3.586E+08        -72.237
              117.97      1.277E+05      9.994E+06        -77.237
              106.37      7.238E+17      9.432E+03          1.000
               96.88     -4.010E-02      6.743E-04          1.000
               89.49      6.095E-17      1.013E-14       -165.205
               84.22      2.228E-30      6.150E-36          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  9.7797241E-04
 entot depart   161240.88       161240.88    
 shsum :  2.10342630E+09  2.46305403E+10  2.46303785E+10  2.46303785E+10
 shsum :  2.14046234E+09  2.81361981E+10  3.50565709E+09  2.81360364E+10
 shsum :  2.16118067E+09  3.06414387E+10  2.50523955E+09  3.06412749E+10
 shsum :  2.34356173E+09  3.78427597E+10  7.20131994E+09  3.78425958E+10
 shsum :  2.34356173E+09  3.78427597E+10   28.017818      3.78425958E+10
 shsum :  2.34356173E+09  3.78427597E+10   1.5964173      3.78425958E+10
 fin  3.78427597E+10  2.34356173E+09   18.783709    
   16.147541    
 -2.82404468E+14   18.783709    
 ezero   0.0000000    
  3.78427597E+10
  1.50345424E+15

Total energy input of :4.402E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.784E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.784E+10)
                                           + heating (elhsum =1.612E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  16.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0702E+10 [eV/cm2/s]
                                                             or : 4.9191E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 1.549E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.419E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.756E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.482E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.352E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.419E+00 [eV.cm-2.s-1] ("shsum").
  4.16988256E+08           2          21
  4.46620224E+08           2          23

 Total Heating :  1.142E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      6.216E+07          0.000
              286.72     -2.377E+08      1.391E+08          0.000
              258.24     -3.412E+08      3.064E+08          0.000
              231.88      7.272E+17      6.332E+08          1.000
              207.62            NaN      1.089E+09          1.000
              185.47            NaN      1.285E+09          1.000
              165.43      7.324E+17      9.369E+08          1.000
              147.50      2.288E+07      4.914E+08        -20.483
              131.68      2.360E+06      7.152E+07        -29.306
              117.97      9.389E+03      4.052E+05        -42.155
              106.37      7.238E+17      1.098E+01          1.000
               96.88     -4.011E-02      2.716E-08          1.000
               89.49      5.568E-22      9.637E-20       -172.084
               84.22      0.000E+00      0.000E+00       -172.084
               81.05      0.000E+00      0.000E+00       -172.084
               80.00      0.000E+00      0.000E+00       -172.084
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.2016293E-04
 entot depart   114185.22       114185.22    
 shsum :  1.44359424E+09  1.54875494E+10  1.54874348E+10  1.54874348E+10
 shsum :  1.47086694E+09  1.79067679E+10  2.41921818E+09  1.79066532E+10
 shsum :  1.48662157E+09  1.96626248E+10  1.75585690E+09  1.96625101E+10
 shsum :  1.63074240E+09  2.51448074E+10  5.48218266E+09  2.51446927E+10
 shsum :  1.63074240E+09  2.51448074E+10   23.524563      2.51446927E+10
 shsum :  1.63074240E+09  2.51448074E+10   1.4186366      2.51446927E+10
 fin  2.51448074E+10  1.63074240E+09   18.827084    
   15.419239    
 -4.05847230E+14   18.827084    
 ezero   0.0000000    
  2.51448074E+10
  2.15565643E+15

Total energy input of :3.070E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.514E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.514E+10)
                                           + heating (elhsum =1.142E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.83 eV (from qtoteV)
                                  or :  15.42 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0716E+10 [eV/cm2/s]
                                                             or : 4.9213E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.550E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.420E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.757E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.484E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.356E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.420E+00 [eV.cm-2.s-1] ("shsum").
  4.16296128E+08           2          21
  4.45809248E+08           2          23

 Total Heating :  1.144E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      6.178E+07          0.000
              286.72     -2.367E+08      1.382E+08          0.000
              258.24     -3.400E+08      3.043E+08          0.000
              231.88      7.272E+17      6.293E+08          1.000
              207.62            NaN      1.085E+09          1.000
              185.47            NaN      1.287E+09          1.000
              165.43      7.324E+17      9.419E+08          1.000
              147.50      2.340E+07      4.964E+08        -20.210
              131.68      2.436E+06      7.389E+07        -29.330
              117.97      1.003E+04      4.289E+05        -41.763
              106.37      7.238E+17      1.241E+01          1.000
               96.88     -4.011E-02      3.214E-08          1.000
               89.49      6.868E-22      1.184E-19       -171.440
               84.22      0.000E+00      0.000E+00       -171.440
               81.05      0.000E+00      0.000E+00       -171.440
               80.00      0.000E+00      0.000E+00       -171.440
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.2037650E-04
 entot depart   114369.48       114369.48    
 shsum :  1.44445811E+09  1.54954793E+10  1.54953646E+10  1.54953646E+10
 shsum :  1.47173888E+09  1.79158405E+10  2.42036096E+09  1.79157258E+10
 shsum :  1.48749683E+09  1.96723610E+10  1.75652006E+09  1.96722463E+10
 shsum :  1.63166029E+09  2.51564605E+10  5.48409856E+09  2.51563459E+10
 shsum :  1.63166029E+09  2.51564605E+10   23.555012      2.51563459E+10
 shsum :  1.63166029E+09  2.51564605E+10   1.4203324      2.51563459E+10
 fin  2.51564605E+10  1.63166029E+09   18.824980    
   15.417707    
 -4.05618926E+14   18.824980    
 ezero   0.0000000    
  2.51564605E+10
  2.15468443E+15

Total energy input of :3.072E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.516E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.516E+10)
                                           + heating (elhsum =1.144E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  15.42 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0717E+10 [eV/cm2/s]
                                                             or : 4.9215E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.549E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.421E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.757E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.485E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.359E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.422E+00 [eV.cm-2.s-1] ("shsum").
  4.14964544E+08           2          21
  4.44273888E+08           2          23

 Total Heating :  1.145E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.091E+09      6.117E+07          0.000
              286.72     -2.350E+08      1.367E+08          0.000
              258.24     -3.383E+08      3.009E+08          0.000
              231.88      7.272E+17      6.233E+08          1.000
              207.62            NaN      1.079E+09          1.000
              185.47            NaN      1.289E+09          1.000
              165.43      7.324E+17      9.485E+08          1.000
              147.50      2.406E+07      5.023E+08        -19.880
              131.68      2.521E+06      7.648E+07        -29.341
              117.97      1.072E+04      4.541E+05        -41.376
              106.37      7.238E+17      1.404E+01          1.000
               96.88     -4.011E-02      3.807E-08          1.000
               89.49      8.482E-22      1.457E-19       -170.823
               84.22      0.000E+00      0.000E+00       -170.823
               81.05      0.000E+00      0.000E+00       -170.823
               80.00      0.000E+00      0.000E+00       -170.823
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.2034402E-04
 entot depart   114522.44       114522.44    
 shsum :  1.44474074E+09  1.54935214E+10  1.54934067E+10  1.54934067E+10
 shsum :  1.47202035E+09  1.79140526E+10  2.42053146E+09  1.79139379E+10
 shsum :  1.48777715E+09  1.96705956E+10  1.75654336E+09  1.96704809E+10
 shsum :  1.63197427E+09  2.51559956E+10  5.48540058E+09  2.51558810E+10
 shsum :  1.63197427E+09  2.51559956E+10   23.586483      2.51558810E+10
 shsum :  1.63197427E+09  2.51559956E+10   1.4222188      2.51558810E+10
 fin  2.51559956E+10  1.63197427E+09   18.821987    
   15.414456    
 -4.05540878E+14   18.821987    
 ezero   0.0000000    
  2.51559956E+10
  2.15461249E+15

Total energy input of :3.072E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.516E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.516E+10)
                                           + heating (elhsum =1.145E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  15.41 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  90.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0703E+10 [eV/cm2/s]
                                                             or : 4.9192E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.548E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.420E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.756E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.486E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.362E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.424E+00 [eV.cm-2.s-1] ("shsum").
  4.12952448E+08           2          21
  4.41970112E+08           2          23

 Total Heating :  1.146E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      6.031E+07          0.000
              286.72     -2.327E+08      1.346E+08          0.000
              258.24     -3.359E+08      2.964E+08          0.000
              231.88      7.272E+17      6.154E+08          1.000
              207.62            NaN      1.071E+09          1.000
              185.47            NaN      1.292E+09          1.000
              165.43      7.324E+17      9.566E+08          1.000
              147.50      2.483E+07      5.090E+08        -19.501
              131.68      2.611E+06      7.922E+07        -29.337
              117.97      1.143E+04      4.803E+05        -41.003
              106.37      7.238E+17      1.582E+01          1.000
               96.88     -4.011E-02      4.486E-08          1.000
               89.49      1.040E-21      1.781E-19       -170.257
               84.22      0.000E+00      0.000E+00       -170.257
               81.05      0.000E+00      0.000E+00       -170.257
               80.00      0.000E+00      0.000E+00       -170.257
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.2001538E-04
 entot depart   114626.31       114626.31    
 shsum :  1.44430720E+09  1.54799483E+10  1.54798336E+10  1.54798336E+10
 shsum :  1.47157427E+09  1.78994606E+10  2.41951258E+09  1.78993459E+10
 shsum :  1.48732467E+09  1.96552622E+10  1.75580096E+09  1.96551475E+10
 shsum :  1.63154150E+09  2.51411005E+10  5.48583834E+09  2.51409859E+10
 shsum :  1.63154150E+09  2.51411005E+10   23.616926      2.51409859E+10
 shsum :  1.63154150E+09  2.51411005E+10   1.4242034      2.51409859E+10
 fin  2.51411005E+10  1.63154150E+09   18.818174    
   15.409415    
 -4.05648454E+14   18.818174    
 ezero   0.0000000    
  2.51411005E+10
  2.15562060E+15

Total energy input of :3.070E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.514E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.514E+10)
                                           + heating (elhsum =1.146E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  15.41 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6064E+10 [eV/cm2/s]
                                                             or : 2.5738E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 6.527E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.187E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.703E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.170E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.646E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.102E+00 [eV.cm-2.s-1] ("shsum").
  2.35252768E+08           2          21
  2.51067440E+08           2          23

 Total Heating :  5.696E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.093E+09      5.135E+07          0.000
              286.72     -2.307E+08      1.122E+08          0.000
              258.24     -3.057E+08      2.345E+08          0.000
              231.88      7.272E+17      4.336E+08          1.000
              207.62            NaN      5.995E+08          1.000
              185.47            NaN      5.266E+08          1.000
              165.43      7.324E+17      3.126E+08          1.000
              147.50      1.051E+07      6.882E+07         -5.551
              131.68      1.172E+05      7.571E+05         -5.458
              117.97      1.194E+01      1.170E+02         -8.804
              106.37      7.238E+17      3.247E-05          1.000
               96.88     -4.011E-02      7.432E-15          1.000
               89.49      1.115E-29      6.790E-28        -59.883
               84.22      0.000E+00      0.000E+00        -59.883
               81.05      0.000E+00      0.000E+00        -59.883
               80.00      0.000E+00      0.000E+00        -59.883
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9600985E-04
 entot depart   56955.707       56955.707    
 shsum :  7.32007680E+08  6.52678400E+09  6.52672717E+09  6.52672717E+09
 shsum :  7.47004672E+08  7.71374336E+09  1.18695936E+09  7.71368653E+09
 shsum :  7.56048896E+08  8.58404454E+09  8.70301312E+08  8.58398771E+09
 shsum :  8.45051968E+08  1.17545421E+10  3.17049779E+09  1.17544858E+10
 shsum :  8.45051968E+08  1.17545421E+10   16.455250      1.17544858E+10
 shsum :  8.45051968E+08  1.17545421E+10   1.1024709      1.17544858E+10
 fin  1.17545421E+10  8.45051968E+08   19.009729    
   13.909845    
 -7.83185273E+14   19.009729    
 ezero   0.0000000    
  1.17545421E+10
  4.11991812E+15

Total energy input of :1.606E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.175E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.175E+10)
                                           + heating (elhsum =5.696E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.01 eV (from qtoteV)
                                  or :  13.91 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7192E+10 [eV/cm2/s]
                                                             or : 2.7545E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 7.155E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.282E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.400E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.370E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.716E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.137E+00 [eV.cm-2.s-1] ("shsum").
  2.50559616E+08           2          21
  2.67492304E+08           2          23

 Total Heating :  6.161E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.092E+09      5.219E+07          0.000
              286.72     -2.310E+08      1.144E+08          0.000
              258.24     -3.103E+08      2.407E+08          0.000
              231.88      7.272E+17      4.523E+08          1.000
              207.62            NaN      6.443E+08          1.000
              185.47            NaN      5.844E+08          1.000
              165.43      7.324E+17      3.567E+08          1.000
              147.50      1.197E+07      9.225E+07         -6.704
              131.68      1.889E+05      1.368E+06         -6.240
              117.97      3.167E+01      3.347E+02         -9.569
              106.37      7.238E+17      1.176E-04          1.000
               96.88     -4.011E-02      3.637E-14          1.000
               89.49      7.249E-29      1.205E-26       -165.256
               84.22      0.000E+00      0.000E+00       -165.256
               81.05      0.000E+00      0.000E+00       -165.256
               80.00      0.000E+00      0.000E+00       -165.256
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2289094E-04
 entot depart   61613.184       61613.184    
 shsum :  7.86233728E+08  7.15483136E+09  7.15476992E+09  7.15476992E+09
 shsum :  8.02248704E+08  8.43710464E+09  1.28227341E+09  8.43704320E+09
 shsum :  8.11871360E+08  9.37714586E+09  9.40040832E+08  9.37708442E+09
 shsum :  9.05851008E+08  1.27472046E+10  3.37005875E+09  1.27471432E+10
 shsum :  9.05851008E+08  1.27472046E+10   17.160059      1.27471432E+10
 shsum :  9.05851008E+08  1.27472046E+10   1.1370058      1.27471432E+10
 fin  1.27472046E+10  9.05851008E+08   18.978701    
   14.072077    
 -7.30619370E+14   18.978701    
 ezero   0.0000000    
  1.27472046E+10
  3.84968066E+15

Total energy input of :1.719E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.275E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.275E+10)
                                           + heating (elhsum =6.161E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.98 eV (from qtoteV)
                                  or :  14.07 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8444E+10 [eV/cm2/s]
                                                             or : 2.9551E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 7.865E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.388E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.017E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.588E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.791E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.173E+00 [eV.cm-2.s-1] ("shsum").
  2.66874352E+08           2          21
  2.84977920E+08           2          23

 Total Heating :  6.679E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.091E+09      5.286E+07          0.000
              286.72     -2.305E+08      1.161E+08          0.000
              258.24     -3.141E+08      2.461E+08          0.000
              231.88      7.272E+17      4.703E+08          1.000
              207.62            NaN      6.917E+08          1.000
              185.47            NaN      6.510E+08          1.000
              165.43      7.324E+17      4.081E+08          1.000
              147.50      1.356E+07      1.226E+08         -8.041
              131.68      3.039E+05      2.515E+06         -7.276
              117.97      8.399E+01      1.014E+03        -11.077
              106.37      7.238E+17      4.628E-04          1.000
               96.88     -4.011E-02      1.970E-13          1.000
               89.49      5.315E-28      9.480E-26       -177.362
               84.22      0.000E+00      0.000E+00       -177.362
               81.05      0.000E+00      0.000E+00       -177.362
               80.00      0.000E+00      0.000E+00       -177.362
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.5231031E-04
 entot depart   66790.680       66790.680    
 shsum :  8.46696192E+08  7.86531789E+09  7.86525133E+09  7.86525133E+09
 shsum :  8.63825280E+08  9.25360230E+09  1.38828416E+09  9.25353574E+09
 shsum :  8.74076608E+08  1.02710272E+10  1.01742451E+09  1.02709606E+10
 shsum :  9.73436736E+08  1.38588887E+10  3.58786176E+09  1.38588221E+10
 shsum :  9.73436736E+08  1.38588887E+10   17.914352      1.38588221E+10
 shsum :  9.73436736E+08  1.38588887E+10   1.1733688      1.38588221E+10
 fin  1.38588887E+10  9.73436736E+08   18.947273    
   14.237072    
 -6.79892451E+14   18.947273    
 ezero   0.0000000    
  1.38588887E+10
  3.58833914E+15

Total energy input of :1.844E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.386E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.386E+10)
                                           + heating (elhsum =6.679E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.95 eV (from qtoteV)
                                  or :  14.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude  95.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9819E+10 [eV/cm2/s]
                                                             or : 3.1754E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 8.661E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.505E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.102E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.823E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.871E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.211E+00 [eV.cm-2.s-1] ("shsum").
  2.83976032E+08           2          21
  3.03279648E+08           2          23

 Total Heating :  7.246E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.089E+09      5.332E+07          0.000
              286.72     -2.293E+08      1.173E+08          0.000
              258.24     -3.169E+08      2.505E+08          0.000
              231.88      7.272E+17      4.869E+08          1.000
              207.62            NaN      7.405E+08          1.000
              185.47            NaN      7.265E+08          1.000
              165.43      7.324E+17      4.675E+08          1.000
              147.50      1.528E+07      1.608E+08         -9.528
              131.68      4.803E+05      4.643E+06         -8.667
              117.97      2.143E+02      3.104E+03        -13.489
              106.37      7.238E+17      1.956E-03          1.000
               96.88     -4.011E-02      1.160E-12          1.000
               89.49      4.304E-27      7.664E-25       -177.059
               84.22      0.000E+00      0.000E+00       -177.059
               81.05      0.000E+00      0.000E+00       -177.059
               80.00      0.000E+00      0.000E+00       -177.059
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.8412447E-04
 entot depart   72464.664       72464.664    
 shsum :  9.13346816E+08  8.66067968E+09  8.66060698E+09  8.66060698E+09
 shsum :  9.31680704E+08  1.01654907E+10  1.50481139E+09  1.01654180E+10
 shsum :  9.42606848E+08  1.12677386E+10  1.10224755E+09  1.12676659E+10
 shsum :  1.04770880E+09  1.50902968E+10  3.82255770E+09  1.50902231E+10
 shsum :  1.04770880E+09  1.50902968E+10   18.708771      1.50902231E+10
 shsum :  1.04770880E+09  1.50902968E+10   1.2110271      1.50902231E+10
 fin  1.50902968E+10  1.04770880E+09   18.916487    
   14.403140    
 -6.31694864E+14   18.916487    
 ezero   0.0000000    
  1.50902968E+10
  3.33938808E+15

Total energy input of :1.982E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.509E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.509E+10)
                                           + heating (elhsum =7.246E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.92 eV (from qtoteV)
                                  or :  14.40 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.7690E+09 [eV/cm2/s]
                                                             or : 1.0845E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.986E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.238E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.073E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.361E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.100E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.975E-01 [eV.cm-2.s-1] ("shsum").
   93579080.               2          21
   99031064.               2          23

 Total Heating :  1.984E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.086E+09      3.579E+07          0.000
              286.72     -1.985E+08      7.372E+07          0.000
              258.24     -1.991E+08      1.350E+08          0.000
              231.88      7.272E+17      1.952E+08          1.000
              207.62            NaN      1.938E+08          1.000
              185.47            NaN      1.331E+08          1.000
              165.43      7.324E+17      3.999E+07          1.000
              147.50      1.047E+06      1.645E+06         -0.571
              131.68      8.774E+02      2.996E+03         -2.414
              117.97      2.346E-03      2.277E-02         -8.706
              106.37      7.238E+17      2.890E-10          1.000
               96.88     -4.011E-02      4.182E-21          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.6067617E-04
 entot depart   19843.613       19843.613    
 shsum :  2.94029952E+08  1.98591386E+09  1.98589402E+09  1.98589402E+09
 shsum :  3.00114784E+08  2.40970266E+09  4.23788864E+08  2.40968294E+09
 shsum :  3.03904448E+08  2.71700838E+09  3.07305824E+08  2.71698867E+09
 shsum :  3.45082112E+08  4.07766579E+09  1.36065728E+09  4.07764582E+09
 shsum :  3.45082112E+08  4.07766579E+09   9.0998173      4.07764582E+09
 shsum :  3.45082112E+08  4.07766579E+09  0.69745350      4.07764582E+09
 fin  4.07766579E+09  3.45082112E+08   19.615564    
   11.816508    
 -1.91789792E+15   19.615564    
 ezero   0.0000000    
  4.07766579E+09
  9.77742970E+15

Total energy input of :6.769E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.078E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.078E+09)
                                           + heating (elhsum =1.984E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.62 eV (from qtoteV)
                                  or :  11.82 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.0968E+09 [eV/cm2/s]
                                                             or : 1.2973E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.543E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.274E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.838E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.637E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.042E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.780E-01 [eV.cm-2.s-1] ("shsum").
  1.14478864E+08           2          21
  1.21398760E+08           2          23

 Total Heating :  2.492E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      3.874E+07          0.000
              286.72     -2.076E+08      8.110E+07          0.000
              258.24     -2.269E+08      1.540E+08          0.000
              231.88      7.272E+17      2.367E+08          1.000
              207.62            NaN      2.504E+08          1.000
              185.47            NaN      1.800E+08          1.000
              165.43      7.324E+17      6.658E+07          1.000
              147.50      1.822E+06      3.161E+06         -0.736
              131.68      2.012E+03      6.811E+03         -2.385
              117.97      9.493E-03      8.993E-02         -8.473
              106.37      7.238E+17      2.409E-09          1.000
               96.88     -4.011E-02      6.289E-20          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.9535239E-04
 entot depart   24921.746       24921.746    
 shsum :  3.55448544E+08  2.54303565E+09  2.54301082E+09  2.54301082E+09
 shsum :  3.62846560E+08  3.07041562E+09  5.27380032E+08  3.07039078E+09
 shsum :  3.67433184E+08  3.45424102E+09  3.83825344E+08  3.45421619E+09
 shsum :  4.16303552E+08  5.09157530E+09  1.63733427E+09  5.09155021E+09
 shsum :  4.16303552E+08  5.09157530E+09   10.422604      5.09155021E+09
 shsum :  4.16303552E+08  5.09157530E+09  0.77797234      5.09155021E+09
 fin  5.09157530E+09  4.16303552E+08   19.449303    
   12.230439    
 -1.58978295E+15   19.449303    
 ezero   0.0000000    
  5.09157530E+09
  8.17398365E+15

Total energy input of :8.097E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.092E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.092E+09)
                                           + heating (elhsum =2.492E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.45 eV (from qtoteV)
                                  or :  12.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.7011E+09 [eV/cm2/s]
                                                             or : 1.5543E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 3.263E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.562E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.791E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.965E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.189E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.631E-01 [eV.cm-2.s-1] ("shsum").
  1.39318240E+08           2          21
  1.48004272E+08           2          23

 Total Heating :  3.128E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      4.157E+07          0.000
              286.72     -2.143E+08      8.821E+07          0.000
              258.24     -2.519E+08      1.729E+08          0.000
              231.88      7.272E+17      2.824E+08          1.000
              207.62            NaN      3.217E+08          1.000
              185.47            NaN      2.426E+08          1.000
              165.43      7.324E+17      1.082E+08          1.000
              147.50      3.315E+06      7.119E+06         -1.148
              131.68      5.696E+03      1.975E+04         -2.466
              117.97      5.083E-02      4.707E-01         -8.261
              106.37      7.238E+17      2.607E-08          1.000
               96.88     -4.011E-02      1.224E-18          1.000
               89.49      2.773E-34      9.163E-40          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.3694905E-04
 entot depart   31275.146       31275.146    
 shsum :  4.30392032E+08  3.26299597E+09  3.26296474E+09  3.26296474E+09
 shsum :  4.39365344E+08  3.91914906E+09  6.56153024E+08  3.91911782E+09
 shsum :  4.44897440E+08  4.39821773E+09  4.79068896E+08  4.39818650E+09
 shsum :  5.02675168E+08  6.36315392E+09  1.96493632E+09  6.36312269E+09
 shsum :  5.02675168E+08  6.36315392E+09   11.887678      6.36312269E+09
 shsum :  5.02675168E+08  6.36315392E+09  0.86306071      6.36312269E+09
 fin  6.36315392E+09  5.02675168E+08   19.298975    
   12.658580    
 -1.31662021E+15   19.298975    
 ezero   0.0000000    
  6.36315392E+09
  6.82222860E+15

Total energy input of :9.701E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.363E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =6.363E+09)
                                           + heating (elhsum =3.128E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.30 eV (from qtoteV)
                                  or :  12.66 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 100.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1611E+10 [eV/cm2/s]
                                                             or : 1.8603E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 4.177E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.130E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.951E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.344E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.347E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.507E-01 [eV.cm-2.s-1] ("shsum").
  1.68028880E+08           2          21
  1.78765600E+08           2          23

 Total Heating :  3.904E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.088E+09      4.415E+07          0.000
              286.72     -2.187E+08      9.473E+07          0.000
              258.24     -2.728E+08      1.909E+08          0.000
              231.88      7.272E+17      3.297E+08          1.000
              207.62            NaN      4.074E+08          1.000
              185.47            NaN      3.249E+08          1.000
              165.43      7.324E+17      1.676E+08          1.000
              147.50      5.826E+06      1.756E+07         -2.015
              131.68      1.856E+04      7.308E+04         -2.938
              117.97      3.439E-01      3.132E+00         -8.107
              106.37      7.238E+17      3.483E-07          1.000
               96.88     -4.011E-02      2.989E-17          1.000
               89.49      1.534E-32      3.995E-38          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.8574295E-04
 entot depart   39037.965       39037.965    
 shsum :  5.20458112E+08  4.17725594E+09  4.17721702E+09  4.17721702E+09
 shsum :  5.31279264E+08  4.99024640E+09  8.12990592E+08  4.99020749E+09
 shsum :  5.37906432E+08  5.58530714E+09  5.95060928E+08  5.58526822E+09
 shsum :  6.05753984E+08  7.92942387E+09  2.34411699E+09  7.92938496E+09
 shsum :  6.05753984E+08  7.92942387E+09   13.471420      7.92938496E+09
 shsum :  6.05753984E+08  7.92942387E+09  0.95068675      7.92938496E+09
 fin  7.92942387E+09  6.05753984E+08   19.167633    
   13.090172    
 -1.09257606E+15   19.167633    
 ezero   0.0000000    
  7.92942387E+09
  5.70010933E+15

Total energy input of :1.161E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.929E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =7.929E+09)
                                           + heating (elhsum =3.904E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.17 eV (from qtoteV)
                                  or :  13.09 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0636E+09 [eV/cm2/s]
                                                             or : 3.3063E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 4.086E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.902E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.968E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.709E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.278E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.916E-01 [eV.cm-2.s-1] ("shsum").
   21801642.               2          21
   22752686.               2          23

 Total Heating :  4.347E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.050E+09      1.710E+07          0.000
              286.72     -9.476E+07      2.931E+07          0.000
              258.24     -3.444E+07      3.984E+07          0.000
              231.88      7.272E+17      4.308E+07          1.000
              207.62            NaN      3.554E+07          1.000
              185.47            NaN      1.774E+07          1.000
              165.43      7.324E+17      3.374E+06          1.000
              147.50      1.147E+05      1.694E+05         -0.477
              131.68      6.775E+01      2.342E+02         -2.457
              117.97      6.441E-05      6.504E-04         -9.098
              106.37      7.238E+17      9.294E-13          1.000
               96.88     -4.011E-02      5.814E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.1913892E-05
 entot depart   4346.6929       4346.6929    
 shsum :   82617128.      4.08596864E+08  4.08592512E+08  4.08592512E+08
 shsum :   84204416.      5.07614048E+08   99017184.      5.07609696E+08
 shsum :   85200360.      5.77292288E+08   69678248.      5.77287936E+08
 shsum :   97208352.      9.48233984E+08  3.70941664E+08  9.48229632E+08
 shsum :   97208352.      9.48233984E+08   3.2781401      9.48229632E+08
 shsum :   97208352.      9.48233984E+08  0.29158914      9.48229632E+08
 fin  9.48233984E+08   97208352.       21.228920    
   9.7546558    
 -6.80838914E+15   21.228920    
 ezero   0.0000000    
  9.48233984E+08
  3.20712917E+16

Total energy input of :2.064E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.482E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =9.482E+08)
                                           + heating (elhsum =4.347E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.23 eV (from qtoteV)
                                  or :   9.75 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0091E+09 [eV/cm2/s]
                                                             or : 4.8213E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           77

 MAIN : Total energy deposition in [CO2] is 6.619E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.562E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.110E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.651E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.640E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.952E-01 [eV.cm-2.s-1] ("shsum").
   35053396.               2          21
   36701512.               2          23

 Total Heating :  7.025E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.065E+09      2.216E+07          0.000
              286.72     -1.322E+08      4.094E+07          0.000
              258.24     -7.303E+07      6.141E+07          0.000
              231.88      7.272E+17      7.038E+07          1.000
              207.62            NaN      6.022E+07          1.000
              185.47            NaN      3.266E+07          1.000
              165.43      7.324E+17      6.301E+06          1.000
              147.50      2.128E+05      3.122E+05         -0.467
              131.68      1.376E+02      4.704E+02         -2.419
              117.97      1.515E-04      1.510E-03         -8.970
              106.37      7.238E+17      2.728E-12          1.000
               96.88     -4.011E-02      2.824E-24          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  6.4262487E-05
 entot depart   7025.0347       7025.0347    
 shsum :  1.24126176E+08  6.61922432E+08  6.61915392E+08  6.61915392E+08
 shsum :  1.26559808E+08  8.18084864E+08  1.56162416E+08  8.18077824E+08
 shsum :  1.28088424E+08  9.29070720E+08  1.10985856E+08  9.29063680E+08
 shsum :  1.46068624E+08  1.49420365E+09  5.65132864E+08  1.49419648E+09
 shsum :  1.46068624E+08  1.49420365E+09   4.6400394      1.49419648E+09
 shsum :  1.46068624E+08  1.49420365E+09  0.39522642      1.49419648E+09
 fin  1.49420365E+09  1.46068624E+08   20.600914    
   10.229464    
 -4.53096823E+15   20.600914    
 ezero   0.0000000    
  1.49420365E+09
  2.19940164E+16

Total energy input of :3.009E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.494E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.494E+09)
                                           + heating (elhsum =7.025E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.60 eV (from qtoteV)
                                  or :  10.23 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.3122E+09 [eV/cm2/s]
                                                             or : 6.9091E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.068E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.429E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.742E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.406E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.361E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.182E-01 [eV.cm-2.s-1] ("shsum").
   54544352.               2          21
   57367840.               2          23

 Total Heating :  1.117E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.075E+09      2.750E+07          0.000
              286.72     -1.650E+08      5.381E+07          0.000
              258.24     -1.266E+08      8.910E+07          0.000
              231.88      7.272E+17      1.123E+08          1.000
              207.62            NaN      1.012E+08          1.000
              185.47            NaN      6.185E+07          1.000
              165.43      7.324E+17      1.322E+07          1.000
              147.50      4.232E+05      6.187E+05         -0.462
              131.68      3.105E+02      1.048E+03         -2.377
              117.97      4.443E-04      4.354E-03         -8.799
              106.37      7.238E+17      1.365E-11          1.000
               96.88     -4.011E-02      4.293E-23          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  9.6764765E-05
 entot depart   11171.408       11171.408    
 shsum :  1.82370464E+08  1.06812026E+09  1.06810906E+09  1.06810906E+09
 shsum :  1.86034960E+08  1.31098099E+09  2.42860704E+08  1.31096973E+09
 shsum :  1.88333392E+08  1.48521754E+09  1.74236576E+08  1.48520627E+09
 shsum :  2.14554784E+08  2.32580506E+09  8.40587456E+08  2.32579379E+09
 shsum :  2.14554784E+08  2.32580506E+09   6.3611546      2.32579379E+09
 shsum :  2.14554784E+08  2.32580506E+09  0.51821077      2.32579379E+09
 fin  2.32580506E+09  2.14554784E+08   20.098526    
   10.840145    
 -3.08467746E+15   20.098526    
 ezero   0.0000000    
  2.32580506E+09
  1.53477789E+16

Total energy input of :4.312E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.326E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.326E+09)
                                           + heating (elhsum =1.117E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.10 eV (from qtoteV)
                                  or :  10.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 105.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.0651E+09 [eV/cm2/s]
                                                             or : 9.7175E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.700E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.698E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.676E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.214E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.425E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.553E-01 [eV.cm-2.s-1] ("shsum").
   81679744.               2          21
   86290064.               2          23

 Total Heating :  1.735E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.081E+09      3.280E+07          0.000
              286.72     -1.893E+08      6.686E+07          0.000
              258.24     -1.835E+08      1.204E+08          0.000
              231.88      7.272E+17      1.704E+08          1.000
              207.62            NaN      1.667E+08          1.000
              185.47            NaN      1.131E+08          1.000
              165.43      7.324E+17      3.202E+07          1.000
              147.50      9.415E+05      1.409E+06         -0.497
              131.68      8.428E+02      2.806E+03         -2.329
              117.97      2.050E-03      1.956E-02         -8.543
              106.37      7.238E+17      1.839E-10          1.000
               96.88     -4.011E-02      2.096E-21          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.4200182E-04
 entot depart   17353.479       17353.479    
 shsum :  2.62104080E+08  1.70039040E+09  1.70037299E+09  1.70037299E+09
 shsum :  2.67481712E+08  2.07021082E+09  3.69820416E+08  2.07019341E+09
 shsum :  2.70839840E+08  2.33780070E+09  2.67589760E+08  2.33778330E+09
 shsum :  3.07878400E+08  3.55192525E+09  1.21412442E+09  3.55190784E+09
 shsum :  3.07878400E+08  3.55192525E+09   8.4245653      3.55190784E+09
 shsum :  3.07878400E+08  3.55192525E+09  0.65534914      3.55190784E+09
 fin  3.55192525E+09  3.07878400E+08   19.699575    
   11.536779    
 -2.14965475E+15   19.699575    
 ezero   0.0000000    
  3.55192525E+09
  1.09121890E+16

Total energy input of :6.065E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.552E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.552E+09)
                                           + heating (elhsum =1.735E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.70 eV (from qtoteV)
                                  or :  11.54 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9969E+08 [eV/cm2/s]
                                                             or : 4.8017E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 4.912E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.148E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.597E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.434E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.923E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.499E-02 [eV.cm-2.s-1] ("shsum").
   1912567.1               2          21
   2005435.5               2          23

 Total Heating :  4.248E+02 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.962E+09      2.882E+06          0.000
              286.72     -6.505E+06      3.565E+06          0.000
              258.24      7.041E+05      4.308E+06         -5.119
              231.88      7.272E+17      4.707E+06          1.000
              207.62            NaN      3.997E+06          1.000
              185.47            NaN      1.955E+06          1.000
              165.43      7.324E+17      3.439E+05          1.000
              147.50      1.169E+04      1.729E+04         -0.479
              131.68      6.766E+00      2.356E+01         -2.482
              117.97      6.281E-06      6.349E-05         -9.107
              106.37      7.238E+17      8.388E-14          1.000
               96.88     -4.011E-02      4.085E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  5.5416863E-06
 entot depart   424.77231       424.77231    
 shsum :   9210742.0       49119984.       49119560.       49119560.    
 shsum :   9420607.0       60601120.       11481137.       60600696.    
 shsum :   9548210.0       68197664.       7596546.0       68197240.    
 shsum :   11090298.      1.12541360E+08   44343696.      1.12540936E+08
 shsum :   11090298.      1.12541360E+08  0.49230459      1.12540936E+08
 shsum :   11090298.      1.12541360E+08  5.49913719E-02  1.12540936E+08
 fin  1.12541360E+08   11090298.       27.023024    
   10.147731    
 -5.96766894E+16   27.023024    
 ezero   0.0000000    
  1.12541360E+08
  2.20836464E+17

Total energy input of :2.997E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.125E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.125E+08)
                                           + heating (elhsum =4.248E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  27.02 eV (from qtoteV)
                                  or :  10.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.2243E+08 [eV/cm2/s]
                                                             or : 1.1575E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 1.203E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.956E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.020E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.156E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.189E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.188E-01 [eV.cm-2.s-1] ("shsum").
   5739736.5               2          21
   5994351.5               2          23

 Total Heating :  1.203E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.996E+09      6.967E+06          0.000
              286.72     -2.309E+07      9.549E+06          0.000
              258.24     -2.604E+06      1.142E+07          0.000
              231.88      7.272E+17      1.210E+07          1.000
              207.62            NaN      9.806E+06          1.000
              185.47            NaN      4.776E+06          1.000
              165.43      7.324E+17      9.027E+05          1.000
              147.50      3.214E+04      4.721E+04         -0.469
              131.68      1.958E+01      6.723E+01         -2.434
              117.97      1.910E-05      1.913E-04         -9.016
              106.37      7.238E+17      2.672E-13          1.000
               96.88     -4.011E-02      1.399E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.3379185E-05
 entot depart   1202.6267       1202.6267    
 shsum :   25798738.      1.20334224E+08  1.20333024E+08  1.20333024E+08
 shsum :   26305410.      1.49890592E+08   29556374.      1.49889392E+08
 shsum :   26619516.      1.70089584E+08   20198990.      1.70088384E+08
 shsum :   30510926.      2.85707072E+08  1.15617504E+08  2.85705888E+08
 shsum :   30510926.      2.85707072E+08   1.1892749      2.85705888E+08
 shsum :   30510926.      2.85707072E+08  0.11880811      2.85705888E+08
 fin  2.85707072E+08   30510926.       23.677761    
   9.3640909    
 -2.16916486E+16   23.677761    
 ezero   0.0000000    
  2.85707072E+08
  9.16119101E+16

Total energy input of :7.224E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.857E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.857E+08)
                                           + heating (elhsum =1.203E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  23.68 eV (from qtoteV)
                                  or :   9.36 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4838E+09 [eV/cm2/s]
                                                             or : 2.3774E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.716E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.691E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.670E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.568E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.413E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.222E-01 [eV.cm-2.s-1] ("shsum").
   14275522.               2          21
   14878611.               2          23

 Total Heating :  2.893E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.033E+09      1.301E+07          0.000
              286.72     -6.560E+07      2.081E+07          0.000
              258.24     -1.678E+07      2.660E+07          0.000
              231.88      7.272E+17      2.833E+07          1.000
              207.62            NaN      2.311E+07          1.000
              185.47            NaN      1.146E+07          1.000
              165.43      7.324E+17      2.244E+06          1.000
              147.50      8.262E+04      1.204E+05         -0.457
              131.68      5.403E+01      1.834E+02         -2.394
              117.97      5.750E-05      5.702E-04         -8.916
              106.37      7.238E+17      8.827E-13          1.000
               96.88     -4.011E-02      5.391E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.8912498E-05
 entot depart   2893.3862       2893.3862    
 shsum :   57770948.      2.71634592E+08  2.71631712E+08  2.71631712E+08
 shsum :   58865868.      3.38545696E+08   66911104.      3.38542816E+08
 shsum :   59551432.      3.85247648E+08   46701964.      3.85244768E+08
 shsum :   67971320.      6.42009088E+08  2.56761456E+08  6.42006208E+08
 shsum :   67971320.      6.42009088E+08   2.4128983      6.42006208E+08
 shsum :   67971320.      6.42009088E+08  0.22221541      6.42006208E+08
 fin  6.42009088E+08   67971320.       21.830473    
   9.4452934    
 -9.73693460E+15   21.830473    
 ezero   0.0000000    
  6.42009088E+08
  4.46024923E+16

Total energy input of :1.484E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.420E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =6.420E+08)
                                           + heating (elhsum =2.893E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.83 eV (from qtoteV)
                                  or :   9.45 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 110.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7264E+09 [eV/cm2/s]
                                                             or : 4.3683E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 5.788E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.382E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.801E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.070E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.280E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.682E-01 [eV.cm-2.s-1] ("shsum").
   30814588.               2          21
   32221200.               2          23

 Total Heating :  6.228E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      2.024E+07          0.000
              286.72     -1.228E+08      3.685E+07          0.000
              258.24     -6.338E+07      5.426E+07          0.000
              231.88      7.272E+17      6.163E+07          1.000
              207.62            NaN      5.279E+07          1.000
              185.47            NaN      2.853E+07          1.000
              165.43      7.324E+17      5.690E+06          1.000
              147.50      2.093E+05      3.025E+05         -0.445
              131.68      1.510E+02      5.069E+02         -2.357
              117.97      1.859E-04      1.821E-03         -8.799
              106.37      7.238E+17      3.513E-12          1.000
               96.88     -4.011E-02      3.399E-24          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  5.7244713E-05
 entot depart   6228.0435       6228.0435    
 shsum :  1.11897560E+08  5.78814144E+08  5.78807936E+08  5.78807936E+08
 shsum :  1.14065424E+08  7.16997952E+08  1.38183808E+08  7.16991744E+08
 shsum :  1.15427760E+08  8.15010560E+08   98012624.      8.15004352E+08
 shsum :  1.31634400E+08  1.32203008E+09  5.07019520E+08  1.32202394E+09
 shsum :  1.31634400E+08  1.32203008E+09   4.2799129      1.32202394E+09
 shsum :  1.31634400E+08  1.32203008E+09  0.36824495      1.32202394E+09
 fin  1.32203008E+09  1.31634400E+08   20.712206    
   10.043196    
 -5.02780629E+15   20.712206    
 ezero   0.0000000    
  1.32203008E+09
  2.42746054E+16

Total energy input of :2.726E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.322E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.322E+09)
                                           + heating (elhsum =6.228E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.71 eV (from qtoteV)
                                  or :  10.04 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.6485E+06 [eV/cm2/s]
                                                             or : 1.0652E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.480E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.419E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.383E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.291E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 9.245E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.624E-03 [eV.cm-2.s-1] ("shsum").
   23662.908               2          21
   25187.623               2          23

 Total Heating :  6.450E+00 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.938E+09      3.679E+04          0.000
              286.72      3.519E+04      5.022E+04         -0.427
              258.24      7.138E+04      7.609E+04         -0.066
              231.88      7.272E+17      1.156E+05          1.000
              207.62            NaN      1.372E+05          1.000
              185.47            NaN      8.052E+04          1.000
              165.43      7.324E+17      1.105E+04          1.000
              147.50      3.352E+02      4.954E+02         -0.478
              131.68      1.758E-01      7.453E-01         -3.240
              117.97      2.307E-07      2.319E-06         -9.050
              106.37      7.238E+17      3.576E-15          1.000
               96.88     -4.011E-02      1.800E-27          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.4776317E-07
 entot depart   6.4503894       6.4503894    
 shsum :   86160.578       1480500.0       1480493.5       1480493.5    
 shsum :   91756.398       1722425.5       241925.56       1722419.0    
 shsum :   94815.797       1860730.1       138304.66       1860723.6    
 shsum :   123422.22       2589782.8       729052.63       2589776.3    
 shsum :   123422.22       2589782.8      9.24465433E-03   2589776.3    
 shsum :   123422.22       2589782.8      1.62397441E-03   2589776.3    
 fin   2589782.8       123422.22       53.867706    
   20.983116    
 -5.36234295E+18   53.867706    
 ezero   0.0000000    
   2589782.8    
  9.95465282E+18

Total energy input of :6.648E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.590E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =2.590E+06)
                                           + heating (elhsum =6.450E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  53.87 eV (from qtoteV)
                                  or :  20.98 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.5468E+07 [eV/cm2/s]
                                                             or : 8.8872E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 1.035E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.045E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.253E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.185E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.834E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.253E-02 [eV.cm-2.s-1] ("shsum").
   248894.88               2          21
   263058.09               2          23

 Total Heating :  6.224E+01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.942E+09      4.330E+05          0.000
              286.72     -7.536E+05      5.468E+05          0.000
              258.24      6.294E+05      7.154E+05         -0.137
              231.88      7.272E+17      9.026E+05          1.000
              207.62            NaN      8.917E+05          1.000
              185.47            NaN      4.745E+05          1.000
              165.43      7.324E+17      7.314E+04          1.000
              147.50      2.448E+03      3.592E+03         -0.467
              131.68      1.551E+00      5.447E+00         -2.513
              117.97      1.699E-06      1.695E-05         -8.979
              106.37      7.238E+17      2.580E-14          1.000
               96.88     -4.011E-02      1.374E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.1285258E-06
 entot depart   62.235657       62.235657    
 shsum :   1136083.3       10350677.       10350615.       10350615.    
 shsum :   1178820.8       12395549.       2044871.8       12395487.    
 shsum :   1203505.3       13648682.       1253133.5       13648620.    
 shsum :   1470901.5       20833312.       7184629.0       20833248.    
 shsum :   1470901.5       20833312.      8.83430541E-02   20833248.    
 shsum :   1470901.5       20833312.      1.25250872E-02   20833248.    
 fin   20833312.       1470901.5       37.710537    
   14.163635    
 -4.49950120E+17   37.710537    
 ezero   0.0000000    
   20833312.    
  1.19316817E+18

Total energy input of :5.547E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.083E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =2.083E+07)
                                           + heating (elhsum =6.224E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  37.71 eV (from qtoteV)
                                  or :  14.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9552E+08 [eV/cm2/s]
                                                             or : 4.7348E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 4.809E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.128E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.469E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.372E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.892E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.456E-02 [eV.cm-2.s-1] ("shsum").
   1874985.3               2          21
   1965306.3               2          23

 Total Heating :  4.203E+02 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.962E+09      2.800E+06          0.000
              286.72     -6.429E+06      3.465E+06          0.000
              258.24      6.647E+05      4.199E+06         -5.318
              231.88      7.272E+17      4.616E+06          1.000
              207.62            NaN      3.961E+06          1.000
              185.47            NaN      1.982E+06          1.000
              165.43      7.324E+17      3.591E+05          1.000
              147.50      1.311E+04      1.910E+04         -0.457
              131.68      8.608E+00      2.934E+01         -2.409
              117.97      9.266E-06      9.182E-05         -8.909
              106.37      7.238E+17      1.398E-13          1.000
               96.88     -4.011E-02      7.760E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  5.4360607E-06
 entot depart   420.28024       420.28024    
 shsum :   9108684.0       48085936.       48085516.       48085516.    
 shsum :   9314549.0       59365384.       11279446.       59364960.    
 shsum :   9439788.0       66834160.       7468775.5       66833736.    
 shsum :   10959836.      1.10557440E+08   43723280.      1.10557016E+08
 shsum :   10959836.      1.10557440E+08  0.48918712      1.10557016E+08
 shsum :   10959836.      1.10557440E+08  5.45607135E-02  1.10557016E+08
 fin  1.10557440E+08   10959836.       26.963884    
   10.087508    
 -6.03870598E+16   26.963884    
 ezero   0.0000000    
  1.10557440E+08
  2.23955349E+17

Total energy input of :2.955E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.106E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =1.106E+08)
                                           + heating (elhsum =4.203E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  26.96 eV (from qtoteV)
                                  or :  10.09 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 115.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.6128E+08 [eV/cm2/s]
                                                             or : 1.5402E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.634E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.054E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.798E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.586E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.591E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.534E-01 [eV.cm-2.s-1] ("shsum").
   8203149.5               2          21
   8553216.0               2          23

 Total Heating :  1.708E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.010E+09      8.870E+06          0.000
              286.72     -3.640E+07      1.292E+07          0.000
              258.24     -5.980E+06      1.573E+07          0.000
              231.88      7.272E+17      1.674E+07          1.000
              207.62            NaN      1.365E+07          1.000
              185.47            NaN      6.822E+06          1.000
              165.43      7.324E+17      1.351E+06          1.000
              147.50      5.212E+04      7.533E+04         -0.445
              131.68      3.615E+01      1.216E+02         -2.365
              117.97      4.087E-05      4.017E-04         -8.829
              106.37      7.238E+17      6.481E-13          1.000
               96.88     -4.011E-02      3.932E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.7974191E-05
 entot depart   1707.5895       1707.5895    
 shsum :   35791980.      1.63371360E+08  1.63369648E+08  1.63369648E+08
 shsum :   36472664.      2.03911744E+08   40540384.      2.03910032E+08
 shsum :   36896908.      2.31891632E+08   27979884.      2.31889920E+08
 shsum :   42178264.      3.90490432E+08  1.58598816E+08  3.90488736E+08
 shsum :   42178264.      3.90490432E+08   1.5914245      3.90488736E+08
 shsum :   42178264.      3.90490432E+08  0.15343297      3.90488736E+08
 fin  3.90490432E+08   42178264.       22.790874    
   9.2580967    
 -1.56913119E+16   22.790874    
 ezero   0.0000000    
  3.90490432E+08
  6.88490988E+16

Total energy input of :9.613E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.905E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.905E+08)
                                           + heating (elhsum =1.708E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  22.79 eV (from qtoteV)
                                  or :   9.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.122E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.337E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      7.874E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      8.281E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.12186296E-36  1.12186296E-36
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 fin  1.12186296E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.12186296E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.122E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.122E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.9360E+05 [eV/cm2/s]
                                                             or : 7.9085E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.157E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.769E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.952E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.019E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.260E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.160E-04 [eV.cm-2.s-1] ("shsum").
   1633.7651               2          21
   1742.3767               2          23

 Total Heating :  4.650E-01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      2.220E+03          0.000
              286.72      2.876E+03      3.174E+03         -0.103
              258.24      4.815E+03      5.166E+03         -0.073
              231.88      7.272E+17      8.486E+03          1.000
              207.62            NaN      1.095E+04          1.000
              185.47            NaN      7.031E+03          1.000
              165.43      7.324E+17      1.033E+03          1.000
              147.50      2.997E+01      4.400E+01         -0.468
              131.68     -1.841E-02      7.295E-02         -0.468
              117.97      2.664E-08      2.642E-07         -8.918
              106.37      7.238E+17      4.875E-16          1.000
               96.88     -4.011E-02      3.862E-35          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.1010107E-08
 entot depart  0.46499178      0.46499178    
 shsum :   5633.8721       115690.27       115689.80       115689.80    
 shsum :   6050.8267       133380.81       17690.539       133380.34    
 shsum :   6274.6958       143332.47       9951.6543       143332.00    
 shsum :   8260.2734       193525.44       50192.977       193524.97    
 shsum :   8260.2734       193525.44      6.26028632E-04   193524.97    
 shsum :   8260.2734       193525.44      1.16021743E-04   193524.97    
 fin   193525.44       8260.2734       59.755867    
   23.428453    
 -8.01223183E+19   59.755867    
 ezero   0.0000000    
   193525.44    
  1.34082760E+20

Total energy input of :4.936E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.935E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.935E+05)
                                           + heating (elhsum =4.650E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  59.76 eV (from qtoteV)
                                  or :  23.43 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8454E+07 [eV/cm2/s]
                                                             or : 2.9567E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 3.822E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.756E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.963E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.183E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.781E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.506E-03 [eV.cm-2.s-1] ("shsum").
   70961.227               2          21
   75289.008               2          23

 Total Heating :  1.882E+01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.939E+09      1.182E+05          0.000
              286.72     -2.808E+04      1.564E+05          0.000
              258.24      2.074E+05      2.211E+05         -0.066
              231.88      7.272E+17      3.111E+05          1.000
              207.62            NaN      3.448E+05          1.000
              185.47            NaN      1.995E+05          1.000
              165.43      7.324E+17      2.935E+04          1.000
              147.50      9.819E+02      1.428E+03         -0.454
              131.68      6.658E-01      2.390E+00         -2.589
              117.97      8.549E-07      8.432E-06         -8.862
              106.37      7.238E+17      1.451E-14          1.000
               96.88     -4.011E-02      8.912E-27          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9831446E-07
 entot depart   18.820616       18.820616    
 shsum :   286749.16       3822127.8       3822109.0       3822109.0    
 shsum :   301833.41       4497763.0       675635.31       4497744.5    
 shsum :   310266.09       4894066.5       396303.69       4894048.0    
 shsum :   394412.00       7077003.0       2182936.8       7076985.0    
 shsum :   394412.00       7077003.0      2.78125517E-02   7076985.0    
 shsum :   394412.00       7077003.0      4.50551976E-03   7076985.0    
 fin   7077003.0       394412.00       46.788609    
   17.943174    
 -1.67802269E+18   46.788609    
 ezero   0.0000000    
   7077003.0    
  3.58639170E+18

Total energy input of :1.845E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.077E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =7.077E+06)
                                           + heating (elhsum =1.882E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  46.79 eV (from qtoteV)
                                  or :  17.94 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 120.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0553E+08 [eV/cm2/s]
                                                             or : 3.2931E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.374E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.709E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.034E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.959E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.415E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.991E-02 [eV.cm-2.s-1] ("shsum").
   1195575.4               2          21
   1254828.5               2          23

 Total Heating :  2.771E+02 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.954E+09      1.871E+06          0.000
              286.72     -4.122E+06      2.289E+06          0.000
              258.24      9.914E+05      2.815E+06         -1.840
              231.88      7.272E+17      3.183E+06          1.000
              207.62            NaN      2.827E+06          1.000
              185.47            NaN      1.458E+06          1.000
              165.43      7.324E+17      2.619E+05          1.000
              147.50      9.887E+03      1.428E+04         -0.444
              131.68      7.014E+00      2.369E+01         -2.378
              117.97      8.270E-06      8.114E-05         -8.812
              106.37      7.238E+17      1.344E-13          1.000
               96.88     -4.011E-02      7.986E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.8149119E-06
 entot depart   277.09323       277.09323    
 shsum :   5906036.0       33744464.       33744188.       33744188.    
 shsum :   6050507.5       41453928.       7709464.0       41453652.    
 shsum :   6137610.5       46487560.       5033634.0       46487288.    
 shsum :   7180216.0       76076416.       29588854.       76076144.    
 shsum :   7180216.0       76076416.      0.34147635       76076144.    
 shsum :   7180216.0       76076416.      3.99057679E-02   76076144.    
 fin   76076416.       7180216.0       28.625137    
   10.595283    
 -9.21744220E+16   28.625137    
 ezero   0.0000000    
   76076416.    
  3.22005174E+17

Total energy input of :2.055E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.608E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =7.608E+07)
                                           + heating (elhsum =2.771E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  28.63 eV (from qtoteV)
                                  or :  10.60 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.122E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.337E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      7.874E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      8.078E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.12186296E-36  1.12186296E-36
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12186296E-36   0.0000000       0.0000000    
 fin  1.12186296E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.12186296E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.122E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.122E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.126E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.414E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      8.531E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      9.717E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.12634398E-36  1.12634398E-36
 shsum :   0.0000000      1.12634398E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12634398E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12634398E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12634398E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12634398E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12634398E-36   0.0000000       0.0000000    
 fin  1.12634398E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.12634398E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.126E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.126E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2935E+05 [eV/cm2/s]
                                                             or : 2.0724E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.063E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.620E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.594E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.298E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.610E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.999E-05 [eV.cm-2.s-1] ("shsum").
   420.93604               2          21
   448.84558               2          23

 Total Heating :  1.216E-01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      5.499E+02          0.000
              286.72      7.219E+02      7.969E+02         -0.104
              258.24      1.216E+03      1.308E+03         -0.076
              231.88      7.272E+17      2.178E+03          1.000
              207.62            NaN      2.878E+03          1.000
              185.47            NaN      1.968E+03          1.000
              165.43      7.324E+17      3.191E+02          1.000
              147.50      9.094E+00      1.326E+01         -0.458
              131.68     -3.262E-02      2.410E-02         -0.458
              117.97      1.020E-08      9.997E-08         -8.798
              106.37      7.238E+17      2.139E-16          1.000
               96.88     -4.011E-02      1.968E-35          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.8761424E-09
 entot depart  0.12156496      0.12156496    
 shsum :   1458.2378       30627.195       30627.074       30627.074    
 shsum :   1567.1578       35246.734       4619.5396       35246.613    
 shsum :   1625.4303       37840.473       2593.7393       37840.352    
 shsum :   2138.7402       50819.535       12979.062       50819.414    
 shsum :   2138.7402       50819.535      1.61029340E-04   50819.414    
 shsum :   2138.7402       50819.535      2.99875101E-05   50819.414    
 fin   50819.535       2138.7402       60.479412    
   23.761435    
 -3.09449578E+20   60.479412    
 ezero   0.0000000    
   50819.535    
  5.11661026E+20

Total energy input of :1.293E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.082E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =5.082E+04)
                                           + heating (elhsum =1.216E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  60.48 eV (from qtoteV)
                                  or :  23.76 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 125.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8574E+07 [eV/cm2/s]
                                                             or : 2.9759E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 3.825E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.790E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.988E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.204E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.824E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.560E-03 [eV.cm-2.s-1] ("shsum").
   71157.586               2          21
   75456.508               2          23

 Total Heating :  1.900E+01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.939E+09      1.177E+05          0.000
              286.72     -3.328E+04      1.557E+05          0.000
              258.24      2.062E+05      2.199E+05         -0.066
              231.88      7.272E+17      3.102E+05          1.000
              207.62            NaN      3.464E+05          1.000
              185.47            NaN      2.054E+05          1.000
              165.43      7.324E+17      3.107E+04          1.000
              147.50      1.079E+03      1.555E+03         -0.441
              131.68      7.928E-01      2.792E+00         -2.521
              117.97      1.091E-06      1.066E-05         -8.770
              106.37      7.238E+17      1.974E-14          1.000
               96.88     -4.011E-02      1.300E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9954261E-07
 entot depart   19.004335       19.004335    
 shsum :   290742.13       3824726.0       3824707.0       3824707.0    
 shsum :   305872.88       4503763.0       679036.88       4503744.0    
 shsum :   314340.19       4902595.0       398832.19       4902576.0    
 shsum :   399231.44       7106542.0       2203947.0       7106523.0    
 shsum :   399231.44       7106542.0      2.82351486E-02   7106523.0    
 shsum :   399231.44       7106542.0      4.55976883E-03   7106523.0    
 fin   7106542.0       399231.44       46.523682    
   17.800556    
 -1.65776598E+18   46.523682    
 ezero   0.0000000    
   7106542.0    
  3.56327337E+18

Total energy input of :1.857E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.107E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =7.107E+06)
                                           + heating (elhsum =1.900E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  46.52 eV (from qtoteV)
                                  or :  17.80 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.123E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.337E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      7.874E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      8.033E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.12266688E-36  1.12266688E-36
 shsum :   0.0000000      1.12266688E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12266688E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12266688E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12266688E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12266688E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12266688E-36   0.0000000       0.0000000    
 fin  1.12266688E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.12266688E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.123E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.123E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.129E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.414E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      8.531E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      9.712E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.12874407E-36  1.12874407E-36
 shsum :   0.0000000      1.12874407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12874407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12874407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12874407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12874407E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12874407E-36   0.0000000       0.0000000    
 fin  1.12874407E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.12874407E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.129E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.129E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.136E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      2.933E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.186E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.13614535E-36  1.13614535E-36
 shsum :   0.0000000      1.13614535E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13614535E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13614535E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13614535E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13614535E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13614535E-36   0.0000000       0.0000000    
 fin  1.13614535E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.13614535E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.136E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.136E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 130.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.0414E+05 [eV/cm2/s]
                                                             or : 8.0773E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.178E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.806E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.016E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.142E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.479E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.202E-04 [eV.cm-2.s-1] ("shsum").
   1647.2238               2          21
   1754.9731               2          23

 Total Heating :  4.764E-01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      2.192E+03          0.000
              286.72      2.853E+03      3.149E+03         -0.104
              258.24      4.757E+03      5.110E+03         -0.074
              231.88      7.272E+17      8.482E+03          1.000
              207.62            NaN      1.117E+04          1.000
              185.47            NaN      7.574E+03          1.000
              165.43      7.324E+17      1.177E+03          1.000
              147.50      3.670E+01      5.294E+01         -0.443
              131.68     -9.582E-03      1.010E-01         -0.443
              117.97      4.430E-08      4.308E-07         -8.725
              106.37      7.238E+17      9.252E-16          1.000
               96.88     -4.011E-02      5.900E-28          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.1235868E-08
 entot depart  0.47636899      0.47636899    
 shsum :   5755.6763       117838.42       117837.95       117837.95    
 shsum :   6181.1807       135898.84       18060.426       135898.38    
 shsum :   6409.6997       146061.33       10162.483       146060.86    
 shsum :   8444.1865       197477.28       51415.957       197476.81    
 shsum :   8444.1865       197477.28      6.47899695E-04   197476.81    
 shsum :   8444.1865       197477.28      1.20178898E-04   197476.81    
 fin   197477.28       8444.1865       59.702374    
   23.386181    
 -7.83772702E+19   59.702374    
 ezero   0.0000000    
   197477.28    
  1.31280000E+20

Total energy input of :5.041E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.975E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.975E+05)
                                           + heating (elhsum =4.764E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  59.70 eV (from qtoteV)
                                  or :  23.39 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.127E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.414E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      7.874E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      8.117E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.12728968E-36  1.12728968E-36
 shsum :   0.0000000      1.12728968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12728968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12728968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12728968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12728968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.12728968E-36   0.0000000       0.0000000    
 fin  1.12728968E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.12728968E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.127E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.127E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.131E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      9.823E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.13104956E-36  1.13104956E-36
 shsum :   0.0000000      1.13104956E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13104956E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13104956E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13104956E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13104956E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13104956E-36   0.0000000       0.0000000    
 fin  1.13104956E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.13104956E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.131E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.131E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.142E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      2.933E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.200E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.14191529E-36  1.14191529E-36
 shsum :   0.0000000      1.14191529E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14191529E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14191529E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14191529E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14191529E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14191529E-36   0.0000000       0.0000000    
 fin  1.14191529E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.14191529E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.142E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.142E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 135.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.150E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.468E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.15043994E-36  1.15043994E-36
 shsum :   0.0000000      1.15043994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15043994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15043994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15043994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15043994E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15043994E-36   0.0000000       0.0000000    
 fin  1.15043994E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.15043994E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.150E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.150E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.130E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.070E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      2.861E-38          1.000
              207.62            NaN      8.531E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      8.302E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.13039927E-36  1.13039927E-36
 shsum :   0.0000000      1.13039927E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13039927E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13039927E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13039927E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13039927E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.13039927E-36   0.0000000       0.0000000    
 fin  1.13039927E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.13039927E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.130E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.130E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.141E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      2.933E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.003E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.14127684E-36  1.14127684E-36
 shsum :   0.0000000      1.14127684E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14127684E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14127684E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14127684E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14127684E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14127684E-36   0.0000000       0.0000000    
 fin  1.14127684E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.14127684E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.141E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.141E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.146E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.222E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.14554513E-36  1.14554513E-36
 shsum :   0.0000000      1.14554513E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14554513E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14554513E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14554513E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14554513E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14554513E-36   0.0000000       0.0000000    
 fin  1.14554513E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.14554513E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.146E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.146E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 140.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.158E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.492E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.15761665E-36  1.15761665E-36
 shsum :   0.0000000      1.15761665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15761665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15761665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15761665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15761665E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15761665E-36   0.0000000       0.0000000    
 fin  1.15761665E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.15761665E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.158E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.158E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.141E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      2.933E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      8.569E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.14063839E-36  1.14063839E-36
 shsum :   0.0000000      1.14063839E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14063839E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14063839E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14063839E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14063839E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14063839E-36   0.0000000       0.0000000    
 fin  1.14063839E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.14063839E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.141E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.141E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.144E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.031E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.14417360E-36  1.14417360E-36
 shsum :   0.0000000      1.14417360E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14417360E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14417360E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14417360E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14417360E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14417360E-36   0.0000000       0.0000000    
 fin  1.14417360E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.14417360E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.144E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.144E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.152E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.252E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.15175218E-36  1.15175218E-36
 shsum :   0.0000000      1.15175218E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15175218E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15175218E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15175218E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15175218E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15175218E-36   0.0000000       0.0000000    
 fin  1.15175218E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.15175218E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.152E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.152E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 145.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.164E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.752E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.525E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.16436791E-36  1.16436791E-36
 shsum :   0.0000000      1.16436791E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16436791E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16436791E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16436791E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16436791E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16436791E-36   0.0000000       0.0000000    
 fin  1.16436791E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.16436791E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.164E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.164E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.143E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.492E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      8.909E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.14283750E-36  1.14283750E-36
 shsum :   0.0000000      1.14283750E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14283750E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14283750E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14283750E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14283750E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.14283750E-36   0.0000000       0.0000000    
 fin  1.14283750E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.14283750E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.143E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.143E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.151E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.067E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.15144493E-36  1.15144493E-36
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 fin  1.15144493E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.15144493E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.151E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.151E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.161E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.752E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.290E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.16087986E-36  1.16087986E-36
 shsum :   0.0000000      1.16087986E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16087986E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16087986E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16087986E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16087986E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16087986E-36   0.0000000       0.0000000    
 fin  1.16087986E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.16087986E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.161E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.161E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 150.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.168E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.752E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.564E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.16811612E-36  1.16811612E-36
 shsum :   0.0000000      1.16811612E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16811612E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16811612E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16811612E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16811612E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16811612E-36   0.0000000       0.0000000    
 fin  1.16811612E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.16811612E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.168E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.168E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.151E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.668E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      9.314E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.15144493E-36  1.15144493E-36
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15144493E-36   0.0000000       0.0000000    
 fin  1.15144493E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.15144493E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.151E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.151E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.160E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.752E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.110E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.15950834E-36  1.15950834E-36
 shsum :   0.0000000      1.15950834E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15950834E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15950834E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15950834E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15950834E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.15950834E-36   0.0000000       0.0000000    
 fin  1.15950834E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.15950834E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.160E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.160E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.167E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.752E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.335E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.16672083E-36  1.16672083E-36
 shsum :   0.0000000      1.16672083E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16672083E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16672083E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16672083E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16672083E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16672083E-36   0.0000000       0.0000000    
 fin  1.16672083E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.16672083E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.167E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.167E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 155.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.171E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.611E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17056357E-36  1.17056357E-36
 shsum :   0.0000000      1.17056357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17056357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17056357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17056357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17056357E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17056357E-36   0.0000000       0.0000000    
 fin  1.17056357E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17056357E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.171E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.171E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.162E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.781E-27      5.752E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      9.779E-38      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.16187310E-36  1.16187310E-36
 shsum :   0.0000000      1.16187310E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16187310E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16187310E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16187310E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16187310E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16187310E-36   0.0000000       0.0000000    
 fin  1.16187310E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.16187310E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.162E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.162E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.169E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.159E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.16851790E-36  1.16851790E-36
 shsum :   0.0000000      1.16851790E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16851790E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16851790E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16851790E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16851790E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16851790E-36   0.0000000       0.0000000    
 fin  1.16851790E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.16851790E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.169E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.169E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.172E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.387E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17240818E-36  1.17240818E-36
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 fin  1.17240818E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17240818E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.172E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.172E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 160.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.175E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.665E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17522216E-36  1.17522216E-36
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 fin  1.17522216E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17522216E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.175E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.175E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.169E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.187E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.030E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.16928649E-36  1.16928649E-36
 shsum :   0.0000000      1.16928649E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16928649E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16928649E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16928649E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16928649E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.16928649E-36   0.0000000       0.0000000    
 fin  1.16928649E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.16928649E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.169E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.169E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.172E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.214E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17240818E-36  1.17240818E-36
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17240818E-36   0.0000000       0.0000000    
 fin  1.17240818E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17240818E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.172E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.172E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.175E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.445E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17522216E-36  1.17522216E-36
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17522216E-36   0.0000000       0.0000000    
 fin  1.17522216E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17522216E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.175E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.175E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 165.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.182E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.076E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.725E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.18185495E-36  1.18185495E-36
 shsum :   0.0000000      1.18185495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18185495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18185495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18185495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18185495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18185495E-36   0.0000000       0.0000000    
 fin  1.18185495E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.18185495E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.182E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.182E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.172E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.647E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.087E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17178147E-36  1.17178147E-36
 shsum :   0.0000000      1.17178147E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17178147E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17178147E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17178147E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17178147E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17178147E-36   0.0000000       0.0000000    
 fin  1.17178147E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17178147E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.172E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.172E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.176E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.724E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.273E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17613254E-36  1.17613254E-36
 shsum :   0.0000000      1.17613254E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17613254E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17613254E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17613254E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17613254E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17613254E-36   0.0000000       0.0000000    
 fin  1.17613254E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17613254E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.176E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.176E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.182E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.076E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.507E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.18202041E-36  1.18202041E-36
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 fin  1.18202041E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.18202041E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.182E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.182E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 170.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.188E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.789E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.18840495E-36  1.18840495E-36
 shsum :   0.0000000      1.18840495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18840495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18840495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18840495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18840495E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18840495E-36   0.0000000       0.0000000    
 fin  1.18840495E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.18840495E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.188E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.188E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.175E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.724E-38          1.000
              231.88      7.272E+17      3.004E-38          1.000
              207.62            NaN      9.843E-39          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.146E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.17547050E-36  1.17547050E-36
 shsum :   0.0000000      1.17547050E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17547050E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17547050E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17547050E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17547050E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.17547050E-36   0.0000000       0.0000000    
 fin  1.17547050E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.17547050E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.175E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.175E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.182E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.076E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.336E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.18202041E-36  1.18202041E-36
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18202041E-36   0.0000000       0.0000000    
 fin  1.18202041E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.18202041E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.182E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.182E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.189E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.573E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.18924438E-36  1.18924438E-36
 shsum :   0.0000000      1.18924438E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18924438E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18924438E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18924438E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18924438E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18924438E-36   0.0000000       0.0000000    
 fin  1.18924438E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.18924438E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.189E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.189E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 175.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.195E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.879E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.857E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.19452968E-36  1.19452968E-36
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 fin  1.19452968E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.19452968E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.195E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.195E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.183E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.076E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.208E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.18281267E-36  1.18281267E-36
 shsum :   0.0000000      1.18281267E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18281267E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18281267E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18281267E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18281267E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.18281267E-36   0.0000000       0.0000000    
 fin  1.18281267E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.18281267E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.183E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.183E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.190E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.402E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.19034408E-36  1.19034408E-36
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 fin  1.19034408E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.19034408E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.190E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.190E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.195E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.879E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.645E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.19452968E-36  1.19452968E-36
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19452968E-36   0.0000000       0.0000000    
 fin  1.19452968E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.19452968E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.195E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.195E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 180.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.200E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.930E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20026393E-36  1.20026393E-36
 shsum :   0.0000000      1.20026393E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20026393E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20026393E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20026393E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20026393E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20026393E-36   0.0000000       0.0000000    
 fin  1.20026393E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20026393E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.200E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.200E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.190E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.802E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.270E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.19034408E-36  1.19034408E-36
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19034408E-36   0.0000000       0.0000000    
 fin  1.19034408E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.19034408E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.190E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.190E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.197E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.879E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.470E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.19670512E-36  1.19670512E-36
 shsum :   0.0000000      1.19670512E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19670512E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19670512E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19670512E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19670512E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19670512E-36   0.0000000       0.0000000    
 fin  1.19670512E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.19670512E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.197E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.197E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.200E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.718E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20034679E-36  1.20034679E-36
 shsum :   0.0000000      1.20034679E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20034679E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20034679E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20034679E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20034679E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20034679E-36   0.0000000       0.0000000    
 fin  1.20034679E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20034679E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.200E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.200E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 185.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.207E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.006E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20706262E-36  1.20706262E-36
 shsum :   0.0000000      1.20706262E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20706262E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20706262E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20706262E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20706262E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20706262E-36   0.0000000       0.0000000    
 fin  1.20706262E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20706262E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.207E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.207E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.195E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.879E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.333E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.19532176E-36  1.19532176E-36
 shsum :   0.0000000      1.19532176E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19532176E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19532176E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19532176E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19532176E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.19532176E-36   0.0000000       0.0000000    
 fin  1.19532176E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.19532176E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.195E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.195E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.201E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.540E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20120990E-36  1.20120990E-36
 shsum :   0.0000000      1.20120990E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20120990E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20120990E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20120990E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20120990E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20120990E-36   0.0000000       0.0000000    
 fin  1.20120990E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20120990E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.201E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.201E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.208E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.793E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20798492E-36  1.20798492E-36
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 fin  1.20798492E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20798492E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.208E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.208E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 190.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.211E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.034E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.085E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21139001E-36  1.21139001E-36
 shsum :   0.0000000      1.21139001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21139001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21139001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21139001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21139001E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21139001E-36   0.0000000       0.0000000    
 fin  1.21139001E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21139001E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.211E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.211E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.200E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.396E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20046500E-36  1.20046500E-36
 shsum :   0.0000000      1.20046500E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20046500E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20046500E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20046500E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20046500E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20046500E-36   0.0000000       0.0000000    
 fin  1.20046500E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20046500E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.200E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.200E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.208E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.611E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20798492E-36  1.20798492E-36
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20798492E-36   0.0000000       0.0000000    
 fin  1.20798492E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20798492E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.208E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.208E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.212E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.034E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.870E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21228846E-36  1.21228846E-36
 shsum :   0.0000000      1.21228846E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21228846E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21228846E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21228846E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21228846E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21228846E-36   0.0000000       0.0000000    
 fin  1.21228846E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21228846E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.212E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.212E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 195.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.215E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.167E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21512621E-36  1.21512621E-36
 shsum :   0.0000000      1.21512621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21512621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21512621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21512621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21512621E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21512621E-36   0.0000000       0.0000000    
 fin  1.21512621E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21512621E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.215E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.215E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.207E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.159E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      4.956E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.459E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.20734638E-36  1.20734638E-36
 shsum :   0.0000000      1.20734638E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20734638E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20734638E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20734638E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20734638E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.20734638E-36   0.0000000       0.0000000    
 fin  1.20734638E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.20734638E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.207E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.207E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.212E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.034E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.682E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21245401E-36  1.21245401E-36
 shsum :   0.0000000      1.21245401E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21245401E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21245401E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21245401E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21245401E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21245401E-36   0.0000000       0.0000000    
 fin  1.21245401E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21245401E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.212E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.212E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.216E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.948E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21588278E-36  1.21588278E-36
 shsum :   0.0000000      1.21588278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21588278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21588278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21588278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21588278E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21588278E-36   0.0000000       0.0000000    
 fin  1.21588278E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21588278E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.216E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.216E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 200.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.220E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.251E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22004470E-36  1.22004470E-36
 shsum :   0.0000000      1.22004470E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22004470E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22004470E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22004470E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22004470E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22004470E-36   0.0000000       0.0000000    
 fin  1.22004470E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22004470E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.220E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.220E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.210E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.034E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.520E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21034951E-36  1.21034951E-36
 shsum :   0.0000000      1.21034951E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21034951E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21034951E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21034951E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21034951E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21034951E-36   0.0000000       0.0000000    
 fin  1.21034951E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21034951E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.210E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.210E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.215E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.753E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21525616E-36  1.21525616E-36
 shsum :   0.0000000      1.21525616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21525616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21525616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21525616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21525616E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21525616E-36   0.0000000       0.0000000    
 fin  1.21525616E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21525616E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.215E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.215E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.222E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.027E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22191271E-36  1.22191271E-36
 shsum :   0.0000000      1.22191271E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22191271E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22191271E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22191271E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22191271E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22191271E-36   0.0000000       0.0000000    
 fin  1.22191271E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22191271E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.222E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.222E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 205.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.229E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.337E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22942062E-36  1.22942062E-36
 shsum :   0.0000000      1.22942062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22942062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22942062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22942062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22942062E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22942062E-36   0.0000000       0.0000000    
 fin  1.22942062E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22942062E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.229E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.229E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.213E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.582E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21323443E-36  1.21323443E-36
 shsum :   0.0000000      1.21323443E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21323443E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21323443E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21323443E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21323443E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21323443E-36   0.0000000       0.0000000    
 fin  1.21323443E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21323443E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.213E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.213E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.222E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.824E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22200706E-36  1.22200706E-36
 shsum :   0.0000000      1.22200706E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22200706E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22200706E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22200706E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22200706E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22200706E-36   0.0000000       0.0000000    
 fin  1.22200706E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22200706E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.222E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.222E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.230E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.107E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23020104E-36  1.23020104E-36
 shsum :   0.0000000      1.23020104E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23020104E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23020104E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23020104E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23020104E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23020104E-36   0.0000000       0.0000000    
 fin  1.23020104E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23020104E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.230E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.230E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 210.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.232E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.424E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23151347E-36  1.23151347E-36
 shsum :   0.0000000      1.23151347E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23151347E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23151347E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23151347E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23151347E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23151347E-36   0.0000000       0.0000000    
 fin  1.23151347E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23151347E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.232E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.232E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.219E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.111E-38          1.000
              231.88      7.272E+17      3.147E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.643E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.21913424E-36  1.21913424E-36
 shsum :   0.0000000      1.21913424E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21913424E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21913424E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21913424E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21913424E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.21913424E-36   0.0000000       0.0000000    
 fin  1.21913424E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.21913424E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.219E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.219E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.230E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.895E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22956250E-36  1.22956250E-36
 shsum :   0.0000000      1.22956250E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22956250E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22956250E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22956250E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22956250E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22956250E-36   0.0000000       0.0000000    
 fin  1.22956250E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22956250E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.230E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.230E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.235E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.189E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23475309E-36  1.23475309E-36
 shsum :   0.0000000      1.23475309E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23475309E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23475309E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23475309E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23475309E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23475309E-36   0.0000000       0.0000000    
 fin  1.23475309E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23475309E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.235E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.235E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 215.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.237E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.116E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.513E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23681024E-36  1.23681024E-36
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 fin  1.23681024E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23681024E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.237E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.237E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.229E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.835E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.702E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.22891230E-36  1.22891230E-36
 shsum :   0.0000000      1.22891230E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22891230E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22891230E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22891230E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22891230E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.22891230E-36   0.0000000       0.0000000    
 fin  1.22891230E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.22891230E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.229E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.229E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.234E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.965E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23412647E-36  1.23412647E-36
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 fin  1.23412647E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23412647E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.234E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.234E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.237E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.116E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.270E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23681024E-36  1.23681024E-36
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23681024E-36   0.0000000       0.0000000    
 fin  1.23681024E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23681024E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.237E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.237E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 220.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.240E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.116E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.602E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23975418E-36  1.23975418E-36
 shsum :   0.0000000      1.23975418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23975418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23975418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23975418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23975418E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23975418E-36   0.0000000       0.0000000    
 fin  1.23975418E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23975418E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.240E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.240E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.234E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.761E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23412647E-36  1.23412647E-36
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23412647E-36   0.0000000       0.0000000    
 fin  1.23412647E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23412647E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.234E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.234E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.237E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.036E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23692853E-36  1.23692853E-36
 shsum :   0.0000000      1.23692853E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23692853E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23692853E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23692853E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23692853E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23692853E-36   0.0000000       0.0000000    
 fin  1.23692853E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23692853E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.237E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.237E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.240E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.290E-38          1.000
              207.62            NaN      1.116E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.351E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24047541E-36  1.24047541E-36
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 fin  1.24047541E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24047541E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.240E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.240E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 225.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.245E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.290E-38          1.000
              207.62            NaN      1.181E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.690E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24513391E-36  1.24513391E-36
 shsum :   0.0000000      1.24513391E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24513391E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24513391E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24513391E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24513391E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24513391E-36   0.0000000       0.0000000    
 fin  1.24513391E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24513391E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.245E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.245E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.235E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.189E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.818E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23485954E-36  1.23485954E-36
 shsum :   0.0000000      1.23485954E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23485954E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23485954E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23485954E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23485954E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23485954E-36   0.0000000       0.0000000    
 fin  1.23485954E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23485954E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.235E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.235E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.240E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.290E-38          1.000
              207.62            NaN      1.116E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.105E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24047541E-36  1.24047541E-36
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24047541E-36   0.0000000       0.0000000    
 fin  1.24047541E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24047541E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.240E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.240E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.251E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      6.085E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.290E-38          1.000
              207.62            NaN      1.181E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.431E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.25064377E-36  1.25064377E-36
 shsum :   0.0000000      1.25064377E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25064377E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25064377E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25064377E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25064377E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.25064377E-36   0.0000000       0.0000000    
 fin  1.25064377E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.25064377E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.251E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.251E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 230.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.7755E+05 [eV/cm2/s]
                                                             or : 6.0491E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 8.735E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.352E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.619E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.910E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.121E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.561E-05 [eV.cm-2.s-1] ("shsum").
   1159.0345               2          21
   1229.4260               2          23

 Total Heating :  3.556E-01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      1.354E+03          0.000
              286.72      1.842E+03      2.036E+03         -0.105
              258.24      3.049E+03      3.297E+03         -0.081
              231.88      7.272E+17      5.780E+03          1.000
              207.62            NaN      8.453E+03          1.000
              185.47            NaN      6.947E+03          1.000
              165.43      7.324E+17      1.244E+03          1.000
              147.50      3.873E+01      5.549E+01         -0.433
              131.68     -6.279E-03      1.126E-01         -0.433
              117.97      5.119E-08      4.979E-07         -8.726
              106.37      7.238E+17      1.158E-15          1.000
               96.88     -4.011E-02      5.853E-28          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  8.3906659E-09
 entot depart  0.35562545      0.35562545    
 shsum :   4298.9473       87347.016       87346.656       87346.656    
 shsum :   4616.7031       100862.57       13515.554       100862.21    
 shsum :   4787.4810       108481.78       7619.2104       108481.42    
 shsum :   6336.2690       147580.09       39098.320       147579.75    
 shsum :   6336.2690       147580.09      5.12058788E-04   147579.75    
 shsum :   6336.2690       147580.09      9.56078293E-05   147579.75    
 fin   147580.09       6336.2690       59.585449    
   23.291325    
 -1.04451414E+20   59.585449    
 ezero   0.0000000    
   147580.09    
  1.75296863E+20

Total energy input of :3.775E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.476E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.476E+05)
                                           + heating (elhsum =3.556E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  59.59 eV (from qtoteV)
                                  or :  23.29 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.238E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      5.918E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.219E-38          1.000
              207.62            NaN      1.050E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.874E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.23843010E-36  1.23843010E-36
 shsum :   0.0000000      1.23843010E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23843010E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23843010E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23843010E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23843010E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.23843010E-36   0.0000000       0.0000000    
 fin  1.23843010E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.23843010E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.238E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.238E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.249E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      6.085E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.290E-38          1.000
              207.62            NaN      1.181E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      2.174E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24864554E-36  1.24864554E-36
 shsum :   0.0000000      1.24864554E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24864554E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24864554E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24864554E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24864554E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24864554E-36   0.0000000       0.0000000    
 fin  1.24864554E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24864554E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.249E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.249E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.0489E+04 [eV/cm2/s]
                                                             or : 1.2896E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.891E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.881E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.621E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.237E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.066E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.002E-05 [eV.cm-2.s-1] ("shsum").
   244.32085               2          21
   259.20895               2          23

 Total Heating :  7.555E-02 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      2.748E+02          0.000
              286.72      3.786E+02      4.193E+02         -0.108
              258.24      6.333E+02      6.867E+02         -0.084
              231.88      7.272E+17      1.218E+03          1.000
              207.62            NaN      1.814E+03          1.000
              185.47            NaN      1.538E+03          1.000
              165.43      7.324E+17      2.960E+02          1.000
              147.50      8.486E+00      1.228E+01         -0.448
              131.68     -3.265E-02      2.412E-02         -0.448
              117.97      1.079E-08      1.057E-07         -8.793
              106.37      7.238E+17      2.519E-16          1.000
               96.88     -4.011E-02      2.834E-35          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.7898200E-09
 entot depart  7.55461603E-02  7.55461603E-02
 shsum :   904.97858       18914.053       18913.977       18913.977    
 shsum :   972.75940       21794.992       2880.9395       21794.916    
 shsum :   1009.0433       23415.602       1620.6084       23415.523    
 shsum :   1335.2682       31653.078       8237.4756       31653.000    
 shsum :   1335.2682       31653.078      1.06640902E-04   31653.000    
 shsum :   1335.2682       31653.078      2.00182294E-05   31653.000    
 fin   31653.078       1335.2682       60.279148    
   23.705408    
 -4.95654951E+20   60.279148    
 ezero   0.0000000    
   31653.078    
  8.22266024E+20

Total energy input of :8.049E+04 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.165E+04 is absorbed (entot) 
                         through inelastic collisions (shsum =3.165E+04)
                                           + heating (elhsum =7.555E-02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  60.28 eV (from qtoteV)
                                  or :  23.71 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 235.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6211E+07 [eV/cm2/s]
                                                             or : 2.5973E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 3.172E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.827E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.458E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.967E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.651E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.207E-03 [eV.cm-2.s-1] ("shsum").
   59075.344               2          21
   62357.039               2          23

 Total Heating :  1.669E+01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.939E+09      8.851E+04          0.000
              286.72     -2.205E+04      1.192E+05          0.000
              258.24      1.604E+05      1.711E+05         -0.067
              231.88      7.272E+17      2.513E+05          1.000
              207.62            NaN      3.055E+05          1.000
              185.47            NaN      2.140E+05          1.000
              165.43      7.324E+17      3.698E+04          1.000
              147.50      1.305E+03      1.863E+03         -0.428
              131.68      1.016E+00      3.560E+00         -2.504
              117.97      1.428E-06      1.395E-05         -8.772
              106.37      7.238E+17      2.762E-14          1.000
               96.88     -4.011E-02      2.140E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3797298E-07
 entot depart   16.687822       16.687822    
 shsum :   265129.47       3171554.8       3171538.0       3171538.0    
 shsum :   277928.56       3754298.5       582743.88       3754282.0    
 shsum :   285141.75       4100103.3       345804.78       4100086.8    
 shsum :   360562.78       6067369.5       1967266.3       6067353.0    
 shsum :   360562.78       6067369.5      2.65088156E-02   6067353.0    
 shsum :   360562.78       6067369.5      4.20724228E-03   6067353.0    
 fin   6067369.5       360562.78       44.959179    
   16.827497    
 -1.83555357E+18   44.959179    
 ezero   0.0000000    
   6067369.5    
  4.08271125E+18

Total energy input of :1.621E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.067E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =6.067E+06)
                                           + heating (elhsum =1.669E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  44.96 eV (from qtoteV)
                                  or :  16.83 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 1.3018E-28 [eV/cm2/s]
                                                             or : 2.0858E-40 [erg/cm2/s]
                                  and from photoelectron source : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]

 MAIN : Total energy deposition in [CO2] is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 0.000E+00 [eV.cm-2.s-1] ("shsum").

 Total Heating :  1.244E-36 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      6.249E-38          0.000
              286.72      3.780E-27      6.085E-38          1.000
              258.24      2.157E-21      5.266E-38          1.000
              231.88      7.272E+17      3.290E-38          1.000
              207.62            NaN      1.116E-38          1.000
              185.47            NaN      0.000E+00          1.000
              165.43      7.324E+17      0.000E+00          1.000
              147.50      1.927E-37      0.000E+00          1.000
              131.68     -3.975E-02      0.000E+00          1.000
              117.97      0.000E+00      0.000E+00          1.000
              106.37      7.238E+17      0.000E+00          1.000
               96.88     -4.011E-02      0.000E+00          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  0.0000000E+00
 entot depart  1.24380965E-36  1.24380965E-36
 shsum :   0.0000000      1.24380965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24380965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24380965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24380965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24380965E-36   0.0000000       0.0000000    
 shsum :   0.0000000      1.24380965E-36   0.0000000       0.0000000    
 fin  1.24380965E-36   0.0000000           +Infinity
       +Infinity
       -Infinity       +Infinity
 ezero   0.0000000    
  1.24380965E-36
       +Infinity

Total energy input of :1.302E-28 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.244E-36 is absorbed (entot) 
                         through inelastic collisions (shsum =0.000E+00)
                                           + heating (elhsum =1.244E-36)
 This refers to an energy gain of   +Inf %


 The average E. loss per ion pair is :   +Inf eV (from qtoteV)
                                  or :   +Inf eV (from (entot))
                                  or :   -Inf eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1480E+05 [eV/cm2/s]
                                                             or : 5.0437E-07 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 7.290E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.128E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.357E+03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.263E+04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.262E-04 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.967E-05 [eV.cm-2.s-1] ("shsum").
   963.80457               2          21
   1022.3839               2          23

 Total Heating :  2.956E-01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.937E+09      1.112E+03          0.000
              286.72      1.524E+03      1.685E+03         -0.105
              258.24      2.536E+03      2.744E+03         -0.082
              231.88      7.272E+17      4.840E+03          1.000
              207.62            NaN      7.113E+03          1.000
              185.47            NaN      5.801E+03          1.000
              165.43      7.324E+17      1.009E+03          1.000
              147.50      2.954E+01      4.293E+01         -0.453
              131.68     -1.703E-02      7.798E-02         -0.453
              117.97      3.034E-08      3.006E-07         -8.907
              106.37      7.238E+17      6.198E-16          1.000
               96.88     -4.011E-02      6.046E-35          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  6.9996466E-09
 entot depart  0.29555038      0.29555038    
 shsum :   3577.4990       72902.633       72902.336       72902.336    
 shsum :   3842.5769       84177.953       11275.316       84177.656    
 shsum :   3985.0005       90534.547       6356.5923       90534.250    
 shsum :   5277.5176       123161.28       32626.738       123160.98    
 shsum :   5277.5176       123161.28      4.26223007E-04   123160.98    
 shsum :   5277.5176       123161.28      7.96728127E-05   123160.98    
 fin   123161.28       5277.5176       59.648888    
   23.336973    
 -1.25405986E+20   59.648888    
 ezero   0.0000000    
   123161.28    
  2.10240275E+20

Total energy input of :3.148E+05 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.232E+05 is absorbed (entot) 
                         through inelastic collisions (shsum =1.232E+05)
                                           + heating (elhsum =2.956E-01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  59.65 eV (from qtoteV)
                                  or :  23.34 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5554E+07 [eV/cm2/s]
                                                             or : 2.4920E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 3.046E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.588E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.314E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.885E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.542E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 4.046E-03 [eV.cm-2.s-1] ("shsum").
   56408.324               2          21
   59544.398               2          23

 Total Heating :  1.595E+01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.939E+09      8.397E+04          0.000
              286.72     -1.418E+04      1.135E+05          0.000
              258.24      1.534E+05      1.637E+05         -0.067
              231.88      7.272E+17      2.416E+05          1.000
              207.62            NaN      2.950E+05          1.000
              185.47            NaN      2.063E+05          1.000
              165.43      7.324E+17      3.506E+04          1.000
              147.50      1.199E+03      1.725E+03         -0.438
              131.68      8.748E-01      3.115E+00         -2.561
              117.97      1.154E-06      1.138E-05         -8.861
              106.37      7.238E+17      2.118E-14          1.000
               96.88     -4.011E-02      1.471E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.2447531E-07
 entot depart   15.950524       15.950524    
 shsum :   252818.63       3046374.0       3046358.0       3046358.0    
 shsum :   265106.56       3605219.0       558845.00       3605203.0    
 shsum :   272027.34       3936612.0       331392.94       3936596.0    
 shsum :   344352.03       5821773.0       1885160.8       5821757.0    
 shsum :   344352.03       5821773.0      2.54178997E-02   5821757.0    
 shsum :   344352.03       5821773.0      4.04615607E-03   5821757.0    
 fin   5821773.0       344352.03       45.167580    
   16.906458    
 -1.92196419E+18   45.167580    
 ezero   0.0000000    
   5821773.0    
  4.25518504E+18

Total energy input of :1.555E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.822E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =5.822E+06)
                                           + heating (elhsum =1.595E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  45.17 eV (from qtoteV)
                                  or :  16.91 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 240.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9382E+08 [eV/cm2/s]
                                                             or : 3.1054E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 2.907E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.018E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.659E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.828E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.456E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.897E-02 [eV.cm-2.s-1] ("shsum").
   1101943.5               2          21
   1151825.4               2          23

 Total Heating :  2.695E+02 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.954E+09      1.537E+06          0.000
              286.72     -3.808E+06      1.900E+06          0.000
              258.24      8.697E+05      2.410E+06         -1.771
              231.88      7.272E+17      2.867E+06          1.000
              207.62            NaN      2.758E+06          1.000
              185.47            NaN      1.600E+06          1.000
              165.43      7.324E+17      3.229E+05          1.000
              147.50      1.292E+04      1.848E+04         -0.430
              131.68      9.572E+00      3.249E+01         -2.394
              117.97      1.148E-05      1.127E-04         -8.817
              106.37      7.238E+17      1.968E-13          1.000
               96.88     -4.011E-02      1.343E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3723713E-06
 entot depart   269.53711       269.53711    
 shsum :   5920431.5       29068534.       29068264.       29068264.    
 shsum :   6048144.0       36086364.       7017828.5       36086092.    
 shsum :   6125990.0       40745316.       4658952.0       40745044.    
 shsum :   7113185.0       69029336.       28284022.       69029064.    
 shsum :   7113185.0       69029336.      0.34558767       69029064.    
 shsum :   7113185.0       69029336.      3.89687344E-02   69029064.    
 fin   69029336.       7113185.0       27.248310    
   9.7044201    
 -9.30430276E+16   27.248310    
 ezero   0.0000000    
   69029336.    
  3.41463472E+17

Total energy input of :1.938E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.903E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =6.903E+07)
                                           + heating (elhsum =2.695E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  27.25 eV (from qtoteV)
                                  or :   9.70 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.8918E+06 [eV/cm2/s]
                                                             or : 7.8376E-06 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.054E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.760E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.011E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.467E+05 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 7.325E-03 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.288E-03 [eV.cm-2.s-1] ("shsum").
   16072.104               2          21
   17017.670               2          23

 Total Heating :  4.718E+00 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.938E+09      2.157E+04          0.000
              286.72      2.379E+04      3.086E+04         -0.297
              258.24      4.428E+04      4.746E+04         -0.072
              231.88      7.272E+17      7.714E+04          1.000
              207.62            NaN      1.036E+05          1.000
              185.47            NaN      7.657E+04          1.000
              165.43      7.324E+17      1.218E+04          1.000
              147.50      3.753E+02      5.478E+02         -0.460
              131.68      2.208E-01      9.042E-01         -3.096
              117.97      2.971E-07      2.982E-06         -9.035
              106.37      7.238E+17      5.077E-15          1.000
               96.88     -4.011E-02      2.974E-27          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.0677909E-07
 entot depart   4.7175002       4.7175002    
 shsum :   63912.422       1054112.0       1054107.3       1054107.3    
 shsum :   67956.164       1230073.3       175961.31       1230068.5    
 shsum :   70173.602       1331169.9       101096.61       1331165.1    
 shsum :   91620.820       1877828.8       546658.94       1877824.0    
 shsum :   91620.820       1877828.8      7.32476730E-03   1877824.0    
 shsum :   91620.820       1877828.8      1.28796627E-03   1877824.0    
 fin   1877828.8       91620.820       53.391750    
   20.495655    
 -7.22360118E+18   53.391750    
 ezero   0.0000000    
   1877828.8    
  1.35294334E+19

Total energy input of :4.892E+06 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.878E+06 is absorbed (entot) 
                         through inelastic collisions (shsum =1.878E+06)
                                           + heating (elhsum =4.718E+00)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  53.39 eV (from qtoteV)
                                  or :  20.50 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.8674E+07 [eV/cm2/s]
                                                             or : 7.7985E-05 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 8.323E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.739E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.084E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 6.460E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.446E-02 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.156E-02 [eV.cm-2.s-1] ("shsum").
   209033.84               2          21
   219776.48               2          23

 Total Heating :  5.582E+01 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.941E+09      3.232E+05          0.000
              286.72     -5.867E+05      4.120E+05          0.000
              258.24      4.998E+05      5.573E+05         -0.115
              231.88      7.272E+17      7.397E+05          1.000
              207.62            NaN      8.000E+05          1.000
              185.47            NaN      5.032E+05          1.000
              165.43      7.324E+17      8.901E+04          1.000
              147.50      3.129E+03      4.538E+03         -0.450
              131.68      2.116E+00      7.424E+00         -2.509
              117.97      2.390E-06      2.384E-05         -8.976
              106.37      7.238E+17      3.913E-14          1.000
               96.88     -4.011E-02      2.544E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  9.3350536E-07
 entot depart   55.818302       55.818302    
 shsum :   1072089.4       8322998.0       8322942.0       8322942.0    
 shsum :   1107441.4       10061588.       1738589.6       10061532.    
 shsum :   1128097.5       11145845.       1084256.8       11145789.    
 shsum :   1366182.3       17606172.       6460326.0       17606116.    
 shsum :   1366182.3       17606172.      8.44632760E-02   17606116.    
 shsum :   1366182.3       17606172.      1.15615949E-02   17606116.    
 fin   17606172.       1366182.3       35.627605    
   12.887133    
 -4.84439223E+17   35.627605    
 ezero   0.0000000    
   17606172.    
  1.35973002E+18

Total energy input of :4.867E+07 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.761E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =1.761E+07)
                                           + heating (elhsum =5.582E+01)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  35.63 eV (from qtoteV)
                                  or :  12.89 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7513E+08 [eV/cm2/s]
                                                             or : 4.4082E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 4.048E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.008E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.789E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.121E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.920E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.294E-02 [eV.cm-2.s-1] ("shsum").
   1695828.6               2          21
   1769965.8               2          23

 Total Heating :  4.041E+02 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.961E+09      2.226E+06          0.000
              286.72     -6.105E+06      2.804E+06          0.000
              258.24      5.423E+05      3.517E+06         -5.485
              231.88      7.272E+17      4.105E+06          1.000
              207.62            NaN      3.857E+06          1.000
              185.47            NaN      2.186E+06          1.000
              165.43      7.324E+17      4.469E+05          1.000
              147.50      1.753E+04      2.526E+04         -0.441
              131.68      1.209E+01      4.142E+01         -2.427
              117.97      1.327E-05      1.316E-04         -8.913
              106.37      7.238E+17      2.125E-13          1.000
               96.88     -4.011E-02      1.360E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.7119006E-06
 entot depart   404.11865       404.11865    
 shsum :   9004011.0       40476892.       40476488.       40476488.    
 shsum :   9182452.0       50556532.       10079641.       50556128.    
 shsum :   9292235.0       57345728.       6789195.0       57345324.    
 shsum :   10711751.       98553568.       41207840.       98553168.    
 shsum :   10711751.       98553568.      0.49195260       98553168.    
 shsum :   10711751.       98553568.      5.29362038E-02   98553168.    
 fin   98553568.       10711751.       25.685158    
   9.2005100    
 -6.17856300E+16   25.685158    
 ezero   0.0000000    
   98553568.    
  2.40549917E+17

Total energy input of :2.751E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.855E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =9.855E+07)
                                           + heating (elhsum =4.041E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  25.69 eV (from qtoteV)
                                  or :   9.20 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 245.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.9462E+08 [eV/cm2/s]
                                                             or : 1.4334E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 1.389E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.624E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.528E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.485E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.587E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.500E-01 [eV.cm-2.s-1] ("shsum").
   7330778.5               2          21
   7614538.5               2          23

 Total Heating :  1.621E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.006E+09      6.977E+06          0.000
              286.72     -3.850E+07      1.058E+07          0.000
              258.24     -7.057E+06      1.333E+07          0.000
              231.88      7.272E+17      1.498E+07          1.000
              207.62            NaN      1.333E+07          1.000
              185.47            NaN      7.386E+06          1.000
              165.43      7.324E+17      1.629E+06          1.000
              147.50      6.746E+04      9.654E+04         -0.431
              131.68      4.872E+01      1.650E+02         -2.387
              117.97      5.593E-05      5.500E-04         -8.833
              106.37      7.238E+17      9.335E-13          1.000
               96.88     -4.011E-02      6.428E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.5765383E-05
 entot depart   1620.5034       1620.5034    
 shsum :   34449552.      1.38857536E+08  1.38855920E+08  1.38855920E+08
 shsum :   35046588.      1.75096160E+08   36238628.      1.75094544E+08
 shsum :   35421532.      2.00376864E+08   25280698.      2.00375248E+08
 shsum :   40349072.      3.48896800E+08  1.48519936E+08  3.48895168E+08
 shsum :   40349072.      3.48896800E+08   1.5874701      3.48895168E+08
 shsum :   40349072.      3.48896800E+08  0.15001105      3.48895168E+08
 fin  3.48896800E+08   40349072.       22.172012    
   8.6469593    
 -1.64026648E+16   22.172012    
 ezero   0.0000000    
  3.48896800E+08
  7.39791366E+16

Total energy input of :8.946E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.489E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =3.489E+08)
                                           + heating (elhsum =1.621E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  22.17 eV (from qtoteV)
                                  or :   8.65 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7300E+08 [eV/cm2/s]
                                                             or : 4.3740E-04 [erg/cm2/s]
 That variable "errorgaupin" is:           68

 MAIN : Total energy deposition in [CO2] is 4.020E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.000E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.735E+06 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.089E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.860E-01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.238E-02 [eV.cm-2.s-1] ("shsum").
   1683040.4               2          21
   1757247.0               2          23

 Total Heating :  3.988E+02 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.961E+09      2.222E+06          0.000
              286.72     -5.991E+06      2.800E+06          0.000
              258.24      6.036E+05      3.516E+06         -4.826
              231.88      7.272E+17      4.100E+06          1.000
              207.62            NaN      3.823E+06          1.000
              185.47            NaN      2.123E+06          1.000
              165.43      7.324E+17      4.189E+05          1.000
              147.50      1.529E+04      2.240E+04         -0.464
              131.68      9.286E+00      3.249E+01         -2.498
              117.97      8.825E-06      8.917E-05         -9.104
              106.37      7.238E+17      1.255E-13          1.000
               96.88     -4.011E-02      7.167E-26          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.6816422E-06
 entot depart   398.82822       398.82822    
 shsum :   8913480.0       40204720.       40204320.       40204320.    
 shsum :   9090775.0       50208964.       10004245.       50208564.    
 shsum :   9199810.0       56944168.       6735203.0       56943768.    
 shsum :   10609169.       97838784.       40894612.       97838384.    
 shsum :   10609169.       97838784.      0.48602593       97838384.    
 shsum :   10609169.       97838784.      5.23821786E-02   97838384.    
 fin   97838784.       10609169.       25.732536    
   9.2220964    
 -6.23830471E+16   25.732536    
 ezero   0.0000000    
   97838784.    
  2.42428673E+17

Total energy input of :2.730E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.784E+07 is absorbed (entot) 
                         through inelastic collisions (shsum =9.784E+07)
                                           + heating (elhsum =3.988E+02)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  25.73 eV (from qtoteV)
                                  or :   9.22 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.6305E+08 [eV/cm2/s]
                                                             or : 1.0623E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 9.947E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.590E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.794E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.069E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.181E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.149E-01 [eV.cm-2.s-1] ("shsum").
   5044244.5               2          21
   5245997.5               2          23

 Total Heating :  1.131E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -8.993E+09      5.329E+06          0.000
              286.72     -2.418E+07      7.593E+06          0.000
              258.24     -3.024E+06      9.424E+06          0.000
              231.88      7.272E+17      1.065E+07          1.000
              207.62            NaN      9.517E+06          1.000
              185.47            NaN      5.216E+06          1.000
              165.43      7.324E+17      1.104E+06          1.000
              147.50      4.252E+04      6.180E+04         -0.454
              131.68      2.707E+01      9.360E+01         -2.457
              117.97      2.692E-05      2.697E-04         -9.018
              106.37      7.238E+17      3.996E-13          1.000
               96.88     -4.011E-02      2.423E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.1446395E-05
 entot depart   1130.7163       1130.7163    
 shsum :   24724462.       99472568.       99471440.       99471440.    
 shsum :   25157940.      1.25376784E+08   25904212.      1.25375648E+08
 shsum :   25429154.      1.43320016E+08   17943226.      1.43318880E+08
 shsum :   29009064.      2.50257376E+08  1.06937360E+08  2.50256240E+08
 shsum :   29009064.      2.50257376E+08   1.1807393      2.50256240E+08
 shsum :   29009064.      2.50257376E+08  0.11492412      2.50256240E+08
 fin  2.50257376E+08   29009064.       22.856592    
   8.6268682    
 -2.28146730E+16   22.856592    
 ezero   0.0000000    
  2.50257376E+08
  9.98165947E+16

Total energy input of :6.630E+08 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.503E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =2.503E+08)
                                           + heating (elhsum =1.131E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  22.86 eV (from qtoteV)
                                  or :   8.63 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3627E+09 [eV/cm2/s]
                                                             or : 2.1833E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           67

 MAIN : Total energy deposition in [CO2] is 2.264E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.879E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.141E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.373E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.387E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.165E-01 [eV.cm-2.s-1] ("shsum").
   12440242.               2          21
   12919027.               2          23

 Total Heating :  2.694E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.024E+09      9.847E+06          0.000
              286.72     -6.777E+07      1.648E+07          0.000
              258.24     -2.044E+07      2.210E+07          0.000
              231.88      7.272E+17      2.497E+07          1.000
              207.62            NaN      2.224E+07          1.000
              185.47            NaN      1.226E+07          1.000
              165.43      7.324E+17      2.696E+06          1.000
              147.50      1.072E+05      1.546E+05         -0.442
              131.68      7.291E+01      2.494E+02         -2.420
              117.97      7.849E-05      7.788E-04         -8.921
              106.37      7.238E+17      1.266E-12          1.000
               96.88     -4.011E-02      8.752E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.5022962E-05
 entot depart   2693.5374       2693.5374    
 shsum :   54570588.      2.26353632E+08  2.26350944E+08  2.26350944E+08
 shsum :   55518212.      2.85142624E+08   58788992.      2.85139936E+08
 shsum :   56115752.      3.26552736E+08   41410104.      3.26550048E+08
 shsum :   63885316.      5.63847808E+08  2.37295072E+08  5.63845120E+08
 shsum :   63885316.      5.63847808E+08   2.3866305      5.63845120E+08
 shsum :   63885316.      5.63847808E+08  0.21646956      5.63845120E+08
 fin  5.63847808E+08   63885316.       21.330095    
   8.8259373    
 -1.03596930E+16   21.330095    
 ezero   0.0000000    
  5.63847808E+08
  4.85684351E+16

Total energy input of :1.363E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.638E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =5.638E+08)
                                           + heating (elhsum =2.694E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  21.33 eV (from qtoteV)
                                  or :   8.83 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 250.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5174E+09 [eV/cm2/s]
                                                             or : 4.0334E-03 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 4.916E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.228E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.760E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 4.718E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.225E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.613E-01 [eV.cm-2.s-1] ("shsum").
   26835564.               2          21
   27996904.               2          23

 Total Heating :  5.776E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.044E+09      1.543E+07          0.000
              286.72     -1.192E+08      2.910E+07          0.000
              258.24     -7.320E+07      4.528E+07          0.000
              231.88      7.272E+17      5.484E+07          1.000
              207.62            NaN      5.052E+07          1.000
              185.47            NaN      2.947E+07          1.000
              165.43      7.324E+17      6.615E+06          1.000
              147.50      2.617E+05      3.747E+05         -0.432
              131.68      1.941E+02      6.566E+02         -2.383
              117.97      2.373E-04      2.328E-03         -8.811
              106.37      7.238E+17      4.533E-12          1.000
               96.88     -4.011E-02      4.435E-24          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  5.0563074E-05
 entot depart   5776.1079       5776.1079    
 shsum :  1.05086360E+08  4.91581216E+08  4.91575424E+08  4.91575424E+08
 shsum :  1.07001192E+08  6.14412544E+08  1.22831360E+08  6.14406784E+08
 shsum :  1.08211320E+08  7.02016512E+08   87603984.      7.02010752E+08
 shsum :  1.23316184E+08  1.17378048E+09  4.71763904E+08  1.17377459E+09
 shsum :  1.23316184E+08  1.17378048E+09   4.2251892      1.17377459E+09
 shsum :  1.23316184E+08  1.17378048E+09  0.36134291      1.17377459E+09
 fin  1.17378048E+09  1.23316184E+08   20.414398    
   9.5184622    
 -5.36695409E+15   20.414398    
 ezero   0.0000000    
  1.17378048E+09
  2.62900424E+16

Total energy input of :2.517E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.174E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.174E+09)
                                           + heating (elhsum =5.776E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.41 eV (from qtoteV)
                                  or :   9.52 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8796E+09 [eV/cm2/s]
                                                             or : 3.0115E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 3.375E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.621E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.111E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.403E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.216E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.832E-01 [eV.cm-2.s-1] ("shsum").
   18668814.               2          21
   19425826.               2          23

 Total Heating :  3.983E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.036E+09      1.268E+07          0.000
              286.72     -9.461E+07      2.275E+07          0.000
              258.24     -4.134E+07      3.275E+07          0.000
              231.88      7.272E+17      3.779E+07          1.000
              207.62            NaN      3.381E+07          1.000
              185.47            NaN      1.855E+07          1.000
              165.43      7.324E+17      3.941E+06          1.000
              147.50      1.432E+05      2.100E+05         -0.466
              131.68      8.642E+01      3.014E+02         -2.487
              117.97      8.202E-05      8.287E-04         -9.104
              106.37      7.238E+17      1.225E-12          1.000
               96.88     -4.011E-02      8.387E-25          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.6119156E-05
 entot depart   3983.4109       3983.4109    
 shsum :   76967008.      3.37535168E+08  3.37531200E+08  3.37531200E+08
 shsum :   78334848.      4.23746432E+08   86211248.      4.23742464E+08
 shsum :   79198504.      4.84851648E+08   61105224.      4.84847680E+08
 shsum :   90222896.      8.25198336E+08  3.40346720E+08  8.25194368E+08
 shsum :   90222896.      8.25198336E+08   3.2159023      8.25194368E+08
 shsum :   90222896.      8.25198336E+08  0.28319383      8.25194368E+08
 fin  8.25198336E+08   90222896.       20.832647    
   9.1462183    
 -7.33552497E+15   20.832647    
 ezero   0.0000000    
  8.25198336E+08
  3.52116795E+16

Total energy input of :1.880E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.252E+08 is absorbed (entot) 
                         through inelastic collisions (shsum =8.252E+08)
                                           + heating (elhsum =3.983E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.83 eV (from qtoteV)
                                  or :   9.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7506E+09 [eV/cm2/s]
                                                             or : 4.4070E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           73

 MAIN : Total energy deposition in [CO2] is 5.526E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.370E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.786E+07 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.214E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.561E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 3.866E-01 [eV.cm-2.s-1] ("shsum").
   29945300.               2          21
   31280084.               2          23

 Total Heating :  6.435E+03 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.046E+09      1.636E+07          0.000
              286.72     -1.266E+08      3.140E+07          0.000
              258.24     -8.442E+07      5.017E+07          0.000
              231.88      7.272E+17      6.195E+07          1.000
              207.62            NaN      5.732E+07          1.000
              185.47            NaN      3.357E+07          1.000
              165.43      7.324E+17      7.311E+06          1.000
              147.50      2.657E+05      3.867E+05         -0.455
              131.68      1.748E+02      6.032E+02         -2.451
              117.97      1.887E-04      1.884E-03         -8.986
              106.37      7.238E+17      3.373E-12          1.000
               96.88     -4.011E-02      3.376E-24          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  5.6069490E-05
 entot depart   6435.1123       6435.1123    
 shsum :  1.15388776E+08  5.52587072E+08  5.52580608E+08  5.52580608E+08
 shsum :  1.17512136E+08  6.89546944E+08  1.36959888E+08  6.89540480E+08
 shsum :  1.18853744E+08  7.87409600E+08   97862656.      7.87403136E+08
 shsum :  1.35487024E+08  1.30885952E+09  5.21449920E+08  1.30885299E+09
 shsum :  1.35487024E+08  1.30885952E+09   4.5613198      1.30885299E+09
 shsum :  1.35487024E+08  1.30885952E+09  0.38663352      1.30885299E+09
 fin  1.30885952E+09  1.35487024E+08   20.301592    
   9.6604052    
 -4.88483864E+15   20.301592    
 ezero   0.0000000    
  1.30885952E+09
  2.40613603E+16

Total energy input of :2.751E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.309E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =1.309E+09)
                                           + heating (elhsum =6.435E+03)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  20.30 eV (from qtoteV)
                                  or :   9.66 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.9679E+09 [eV/cm2/s]
                                                             or : 6.3574E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 9.083E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.158E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.554E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.828E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 6.266E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 5.104E-01 [eV.cm-2.s-1] ("shsum").
   46757140.               2          21
   49066452.               2          23

 Total Heating :  1.027E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.053E+09      2.043E+07          0.000
              286.72     -1.523E+08      4.112E+07          0.000
              258.24     -1.376E+08      7.229E+07          0.000
              231.88      7.272E+17      9.916E+07          1.000
              207.62            NaN      9.697E+07          1.000
              185.47            NaN      6.266E+07          1.000
              165.43      7.324E+17      1.491E+07          1.000
              147.50      5.179E+05      7.501E+05         -0.448
              131.68      3.816E+02      1.301E+03         -2.410
              117.97      5.118E-04      5.033E-03         -8.834
              106.37      7.238E+17      1.395E-11          1.000
               96.88     -4.011E-02      3.623E-23          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  8.5931890E-05
 entot depart   10269.864       10269.864    
 shsum :  1.69776752E+08  9.08295552E+08  9.08285312E+08  9.08285312E+08
 shsum :  1.73031008E+08  1.12405670E+09  2.15761184E+08  1.12404646E+09
 shsum :  1.75083792E+08  1.27945638E+09  1.55399712E+08  1.27944614E+09
 shsum :  1.99605632E+08  2.06227482E+09  7.82818432E+08  2.06226458E+09
 shsum :  1.99605632E+08  2.06227482E+09   6.2662086      2.06226458E+09
 shsum :  1.99605632E+08  2.06227482E+09  0.51036781      2.06226458E+09
 fin  2.06227482E+09  1.99605632E+08   19.878702    
   10.331747    
 -3.31569945E+15   19.878702    
 ezero   0.0000000    
  2.06227482E+09
  1.66796580E+16

Total energy input of :3.968E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.062E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =2.062E+09)
                                           + heating (elhsum =1.027E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.88 eV (from qtoteV)
                                  or :  10.33 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 255.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.6395E+09 [eV/cm2/s]
                                                             or : 9.0356E-03 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.484E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.347E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.429E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.145E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.319E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.492E-01 [eV.cm-2.s-1] ("shsum").
   70847176.               2          21
   74652112.               2          23

 Total Heating :  1.610E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.058E+09      2.482E+07          0.000
              286.72     -1.705E+08      5.156E+07          0.000
              258.24     -1.882E+08      9.765E+07          0.000
              231.88      7.272E+17      1.504E+08          1.000
              207.62            NaN      1.611E+08          1.000
              185.47            NaN      1.142E+08          1.000
              165.43      7.324E+17      3.472E+07          1.000
              147.50      1.107E+06      1.630E+06         -0.473
              131.68      9.680E+02      3.254E+03         -2.362
              117.97      2.054E-03      1.971E-02         -8.596
              106.37      7.238E+17      1.534E-10          1.000
               96.88     -4.011E-02      1.602E-21          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.2892734E-04
 entot depart   16096.213       16096.213    
 shsum :  2.45510512E+08  1.48442944E+09  1.48441331E+09  1.48441331E+09
 shsum :  2.50393008E+08  1.81915674E+09  3.34727296E+08  1.81914061E+09
 shsum :  2.53458608E+08  2.06205888E+09  2.42902096E+08  2.06204275E+09
 shsum :  2.88572928E+08  3.20726170E+09  1.14520269E+09  3.20724531E+09
 shsum :  2.88572928E+08  3.20726170E+09   8.3194695      3.20724531E+09
 shsum :  2.88572928E+08  3.20726170E+09  0.64924532      3.20724531E+09
 fin  3.20726170E+09  2.88572928E+08   19.542648    
   11.114216    
 -2.29346637E+15   19.542648    
 ezero   0.0000000    
  3.20726170E+09
  1.17356986E+16

Total energy input of :5.639E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.207E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.207E+09)
                                           + heating (elhsum =1.610E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.54 eV (from qtoteV)
                                  or :  11.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.2765E+09 [eV/cm2/s]
                                                             or : 1.0056E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           70

 MAIN : Total energy deposition in [CO2] is 1.730E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.827E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.782E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.283E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 8.966E+00 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 6.905E-01 [eV.cm-2.s-1] ("shsum").
   80319104.               2          21
   84761872.               2          23

 Total Heating :  1.831E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      2.647E+07          0.000
              286.72     -1.766E+08      5.572E+07          0.000
              258.24     -2.029E+08      1.079E+08          0.000
              231.88      7.272E+17      1.715E+08          1.000
              207.62            NaN      1.881E+08          1.000
              185.47            NaN      1.348E+08          1.000
              165.43      7.324E+17      4.289E+07          1.000
              147.50      1.191E+06      1.840E+06         -0.545
              131.68      9.384E+02      3.244E+03         -2.457
              117.97      2.142E-03      2.089E-02         -8.757
              106.37      7.238E+17      2.320E-10          1.000
               96.88     -4.011E-02      3.324E-21          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.4579555E-04
 entot depart   18305.568       18305.568    
 shsum :  2.74306368E+08  1.73050970E+09  1.73049139E+09  1.73049139E+09
 shsum :  2.79827680E+08  2.11321370E+09  3.82704064E+08  2.11319552E+09
 shsum :  2.83284320E+08  2.39140890E+09  2.78195200E+08  2.39139072E+09
 shsum :  3.22342208E+08  3.67442534E+09  1.28301632E+09  3.67440691E+09
 shsum :  3.22342208E+08  3.67442534E+09   8.9657192      3.67440691E+09
 shsum :  3.22342208E+08  3.67442534E+09  0.69045562      3.67440691E+09
 fin  3.67442534E+09  3.22342208E+08   19.471605    
   11.399144    
 -2.05319771E+15   19.471605    
 ezero   0.0000000    
  3.67442534E+09
  1.05445731E+16

Total energy input of :6.277E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.674E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =3.674E+09)
                                           + heating (elhsum =1.831E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.47 eV (from qtoteV)
                                  or :  11.40 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.5353E+09 [eV/cm2/s]
                                                             or : 1.2073E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.238E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.797E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.500E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.552E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.029E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 7.724E-01 [eV.cm-2.s-1] ("shsum").
   98473872.               2          21
  1.04082768E+08           2          23

 Total Heating :  2.308E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      2.859E+07          0.000
              286.72     -1.817E+08      6.086E+07          0.000
              258.24     -2.251E+08      1.216E+08          0.000
              231.88      7.272E+17      2.057E+08          1.000
              207.62            NaN      2.433E+08          1.000
              185.47            NaN      1.835E+08          1.000
              165.43      7.324E+17      7.125E+07          1.000
              147.50      2.067E+06      3.469E+06         -0.678
              131.68      2.094E+03      7.165E+03         -2.422
              117.97      8.384E-03      7.979E-02         -8.517
              106.37      7.238E+17      1.963E-09          1.000
               96.88     -4.011E-02      5.268E-20          1.000
               89.49      0.000E+00      0.000E+00          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.7875319E-04
 entot depart   23084.133       23084.133    
 shsum :  3.32382784E+08  2.23788237E+09  2.23785933E+09  2.23785933E+09
 shsum :  3.39152192E+08  2.71758413E+09  4.79701696E+08  2.71756109E+09
 shsum :  3.43371840E+08  3.06755328E+09  3.49969280E+08  3.06753024E+09
 shsum :  3.89986752E+08  4.61962906E+09  1.55207590E+09  4.61960602E+09
 shsum :  3.89986752E+08  4.61962906E+09   10.285702      4.61960602E+09
 shsum :  3.89986752E+08  4.61962906E+09  0.77236187      4.61960602E+09
 fin  4.61962906E+09  3.89986752E+08   19.322016    
   11.845605    
 -1.69706345E+15   19.322016    
 ezero   0.0000000    
  4.61962906E+09
  8.78305619E+15

Total energy input of :7.535E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.620E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =4.620E+09)
                                           + heating (elhsum =2.308E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.32 eV (from qtoteV)
                                  or :  11.85 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.0848E+09 [eV/cm2/s]
                                                             or : 1.4556E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.913E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.031E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.414E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.876E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.175E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 8.588E-01 [eV.cm-2.s-1] ("shsum").
  1.20734440E+08           2          21
  1.27786960E+08           2          23

 Total Heating :  2.916E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      3.091E+07          0.000
              286.72     -1.857E+08      6.636E+07          0.000
              258.24     -2.438E+08      1.360E+08          0.000
              231.88      7.272E+17      2.432E+08          1.000
              207.62            NaN      3.121E+08          1.000
              185.47            NaN      2.491E+08          1.000
              165.43      7.324E+17      1.155E+08          1.000
              147.50      3.750E+06      7.643E+06         -1.038
              131.68      5.755E+03      2.005E+04         -2.484
              117.97      4.505E-02      4.185E-01         -8.290
              106.37      7.238E+17      2.247E-08          1.000
               96.88     -4.011E-02      1.117E-18          1.000
               89.49      2.627E-34      7.331E-40          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.1925452E-04
 entot depart   29159.766       29159.766    
 shsum :  4.04424448E+08  2.91302912E+09  2.91299994E+09  2.91299994E+09
 shsum :  4.12727648E+08  3.51614259E+09  6.03113600E+08  3.51611341E+09
 shsum :  4.17874016E+08  3.95753088E+09  4.41388224E+08  3.95750170E+09
 shsum :  4.73373664E+08  5.83329075E+09  1.87575962E+09  5.83326106E+09
 shsum :  4.73373664E+08  5.83329075E+09   11.749114      5.83326106E+09
 shsum :  4.73373664E+08  5.83329075E+09  0.85883284      5.83326106E+09
 fin  5.83329075E+09  4.73373664E+08   19.191704    
   12.322803    
 -1.39811816E+15   19.191704    
 ezero   0.0000000    
  5.83329075E+09
  7.28501293E+15

Total energy input of :9.085E+09 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.833E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =5.833E+09)
                                           + heating (elhsum =2.916E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.19 eV (from qtoteV)
                                  or :  12.32 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 260.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0968E+10 [eV/cm2/s]
                                                             or : 1.7574E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 3.797E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.572E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.555E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.257E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.333E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 9.477E-01 [eV.cm-2.s-1] ("shsum").
  1.47502144E+08           2          21
  1.56311248E+08           2          23

 Total Heating :  3.672E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      3.344E+07          0.000
              286.72     -1.892E+08      7.227E+07          0.000
              258.24     -2.592E+08      1.511E+08          0.000
              231.88      7.272E+17      2.832E+08          1.000
              207.62            NaN      3.938E+08          1.000
              185.47            NaN      3.357E+08          1.000
              165.43      7.324E+17      1.782E+08          1.000
              147.50      6.575E+06      1.868E+07         -1.841
              131.68      1.860E+04      7.307E+04         -2.929
              117.97      3.170E-01      2.892E+00         -8.123
              106.37      7.238E+17      3.249E-07          1.000
               96.88     -4.011E-02      3.009E-17          1.000
               89.49      1.633E-32      4.233E-38          1.000
               84.22      0.000E+00      0.000E+00          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.6793257E-04
 entot depart   36724.230       36724.230    
 shsum :  4.92707648E+08  3.79724672E+09  3.79721011E+09  3.79721011E+09
 shsum :  5.02854304E+08  4.55441664E+09  7.57169792E+08  4.55437978E+09
 shsum :  5.09099296E+08  5.10988288E+09  5.55466368E+08  5.10984602E+09
 shsum :  5.74793344E+08  7.36640256E+09  2.25651968E+09  7.36636570E+09
 shsum :  5.74793344E+08  7.36640256E+09   13.334185      7.36636570E+09
 shsum :  5.74793344E+08  7.36640256E+09  0.94769824      7.36636570E+09
 fin  7.36640256E+09  5.74793344E+08   19.082386    
   12.815741    
 -1.15142651E+15   19.082386    
 ezero   0.0000000    
  7.36640256E+09
  6.03397539E+15

Total energy input of :1.097E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.366E+09 is absorbed (entot) 
                         through inelastic collisions (shsum =7.366E+09)
                                           + heating (elhsum =3.672E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  19.08 eV (from qtoteV)
                                  or :  12.82 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5338E+10 [eV/cm2/s]
                                                             or : 2.4575E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 6.070E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.123E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.250E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.087E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.627E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.099E+00 [eV.cm-2.s-1] ("shsum").
  2.07073136E+08           2          21
  2.19974080E+08           2          23

 Total Heating :  5.394E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.062E+09      3.828E+07          0.000
              286.72     -1.958E+08      8.419E+07          0.000
              258.24     -2.834E+08      1.825E+08          0.000
              231.88      7.272E+17      3.675E+08          1.000
              207.62            NaN      5.771E+08          1.000
              185.47            NaN      5.541E+08          1.000
              165.43      7.324E+17      3.345E+08          1.000
              147.50      1.168E+07      7.363E+07         -5.305
              131.68      1.182E+05      7.774E+05         -5.579
              117.97      1.257E+01      1.255E+02         -8.977
              106.37      7.238E+17      3.741E-05          1.000
               96.88     -4.011E-02      9.885E-15          1.000
               89.49      1.658E-29      2.002E-27       -119.740
               84.22      0.000E+00      0.000E+00       -119.740
               81.05      0.000E+00      0.000E+00       -119.740
               80.00      0.000E+00      0.000E+00       -119.740
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.7739734E-04
 entot depart   53942.711       53942.711    
 shsum :  6.98832768E+08  6.06961357E+09  6.06955981E+09  6.06955981E+09
 shsum :  7.13124864E+08  7.19269632E+09  1.12308275E+09  7.19264256E+09
 shsum :  7.21776832E+08  8.01765581E+09  8.24959744E+08  8.01760256E+09
 shsum :  8.08932800E+08  1.11051141E+10  3.08745882E+09  1.11050609E+10
 shsum :  8.08932800E+08  1.11051141E+10   16.274220      1.11050609E+10
 shsum :  8.08932800E+08  1.11051141E+10   1.0993414      1.11050609E+10
 fin  1.11051141E+10  8.08932800E+08   18.961025    
   13.728105    
 -8.18154830E+14   18.961025    
 ezero   0.0000000    
  1.11051141E+10
  4.31492923E+15

Total energy input of :1.534E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.111E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.111E+10)
                                           + heating (elhsum =5.394E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.96 eV (from qtoteV)
                                  or :  13.73 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6422E+10 [eV/cm2/s]
                                                             or : 2.6311E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 6.664E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.215E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.923E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.284E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.697E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.134E+00 [eV.cm-2.s-1] ("shsum").
  2.20363424E+08           2          21
  2.34097360E+08           2          23

 Total Heating :  5.839E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      3.872E+07          0.000
              286.72     -1.945E+08      8.518E+07          0.000
              258.24     -2.848E+08      1.855E+08          0.000
              231.88      7.272E+17      3.788E+08          1.000
              207.62            NaN      6.149E+08          1.000
              185.47            NaN      6.159E+08          1.000
              165.43      7.324E+17      3.832E+08          1.000
              147.50      1.349E+07      9.925E+07         -6.359
              131.68      1.926E+05      1.414E+06         -6.340
              117.97      3.335E+01      3.627E+02         -9.876
              106.37      7.238E+17      1.368E-04          1.000
               96.88     -4.011E-02      4.874E-14          1.000
               89.49      1.084E-28      1.740E-26       -159.563
               84.22      0.000E+00      0.000E+00       -159.563
               81.05      0.000E+00      0.000E+00       -159.563
               80.00      0.000E+00      0.000E+00       -159.563
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.0347828E-04
 entot depart   58393.918       58393.918    
 shsum :  7.50844352E+08  6.66363597E+09  6.66357760E+09  6.66357760E+09
 shsum :  7.66124160E+08  7.87823309E+09  1.21459686E+09  7.87817472E+09
 shsum :  7.75342272E+08  8.77049446E+09  8.92261568E+08  8.77043610E+09
 shsum :  8.67443072E+08  1.20548188E+10  3.28432486E+09  1.20547615E+10
 shsum :  8.67443072E+08  1.20548188E+10   16.972805      1.20547615E+10
 shsum :  8.67443072E+08  1.20548188E+10   1.1341608      1.20547615E+10
 fin  1.20548188E+10  8.67443072E+08   18.931519    
   13.896956    
 -7.62969131E+14   18.931519    
 ezero   0.0000000    
  1.20548188E+10
  4.03015277E+15

Total energy input of :1.642E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.205E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.205E+10)
                                           + heating (elhsum =5.839E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.93 eV (from qtoteV)
                                  or :  13.90 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7660E+10 [eV/cm2/s]
                                                             or : 2.8295E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 7.358E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.319E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.691E+08 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.503E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.773E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.171E+00 [eV.cm-2.s-1] ("shsum").
  2.35617744E+08           2          21
  2.50331136E+08           2          23

 Total Heating :  6.347E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      3.942E+07          0.000
              286.72     -1.940E+08      8.675E+07          0.000
              258.24     -2.865E+08      1.896E+08          0.000
              231.88      7.272E+17      3.918E+08          1.000
              207.62            NaN      6.553E+08          1.000
              185.47            NaN      6.853E+08          1.000
              165.43      7.324E+17      4.392E+08          1.000
              147.50      1.539E+07      1.322E+08         -7.590
              131.68      3.131E+05      2.618E+06         -7.362
              117.97      8.826E+01      1.106E+03        -11.526
              106.37      7.238E+17      5.445E-04          1.000
               96.88     -4.011E-02      2.654E-13          1.000
               89.49      7.940E-28      1.415E-25       -177.271
               84.22      0.000E+00      0.000E+00       -177.271
               81.05      0.000E+00      0.000E+00       -177.271
               80.00      0.000E+00      0.000E+00       -177.271
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.3287873E-04
 entot depart   63469.055       63469.055    
 shsum :  8.10399104E+08  7.35837184E+09  7.35830835E+09  7.35830835E+09
 shsum :  8.26792320E+08  8.67776307E+09  1.31939123E+09  8.67769958E+09
 shsum :  8.36643712E+08  9.64686643E+09  9.69103744E+08  9.64680294E+09
 shsum :  9.34185984E+08  1.31502674E+10  3.50340096E+09  1.31502039E+10
 shsum :  9.34185984E+08  1.31502674E+10   17.725695      1.31502039E+10
 shsum :  9.34185984E+08  1.31502674E+10   1.1708083      1.31502039E+10
 fin  1.31502674E+10  9.34185984E+08   18.904060    
   14.076713    
 -7.08458815E+14   18.904060    
 ezero   0.0000000    
  1.31502674E+10
  3.74765424E+15

Total energy input of :1.766E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.315E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.315E+10)
                                           + heating (elhsum =6.347E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.90 eV (from qtoteV)
                                  or :  14.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 265.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9057E+10 [eV/cm2/s]
                                                             or : 3.0532E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 8.161E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.438E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.056E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 3.744E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 1.852E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.209E+00 [eV.cm-2.s-1] ("shsum").
  2.52910976E+08           2          21
  2.68767520E+08           2          23

 Total Heating :  6.918E+04 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      4.044E+07          0.000
              286.72     -1.942E+08      8.900E+07          0.000
              258.24     -2.886E+08      1.951E+08          0.000
              231.88      7.272E+17      4.069E+08          1.000
              207.62            NaN      6.982E+08          1.000
              185.47            NaN      7.618E+08          1.000
              165.43      7.324E+17      5.028E+08          1.000
              147.50      1.735E+07      1.730E+08         -8.971
              131.68      4.985E+05      4.857E+06         -8.745
              117.97      2.242E+02      3.375E+03        -14.050
              106.37      7.238E+17      2.318E-03          1.000
               96.88     -4.011E-02      1.557E-12          1.000
               89.49      6.343E-27      1.127E-24       -176.724
               84.22      0.000E+00      0.000E+00       -176.724
               81.05      0.000E+00      0.000E+00       -176.724
               80.00      0.000E+00      0.000E+00       -176.724
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.6555718E-04
 entot depart   69176.078       69176.078    
 shsum :  8.77775936E+08  8.16132659E+09  8.16125747E+09  8.16125747E+09
 shsum :  8.95406656E+08  9.59915213E+09  1.43782592E+09  9.59908352E+09
 shsum :  9.05955712E+08  1.06547548E+10  1.05560294E+09  1.06546862E+10
 shsum :  1.00939245E+09  1.43983053E+10  3.74355046E+09  1.43982367E+10
 shsum :  1.00939245E+09  1.43983053E+10   18.524567      1.43982367E+10
 shsum :  1.00939245E+09  1.43983053E+10   1.2087209      1.43982367E+10
 fin  1.43983053E+10  1.00939245E+09   18.879272    
   14.264328    
 -6.55673868E+14   18.879272    
 ezero   0.0000000    
  1.43983053E+10
  3.47298303E+15

Total energy input of :1.906E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.440E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =1.440E+10)
                                           + heating (elhsum =6.918E+04)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.88 eV (from qtoteV)
                                  or :  14.26 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0081E+10 [eV/cm2/s]
                                                             or : 4.8196E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.505E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.364E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.719E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.452E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.326E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.414E+00 [eV.cm-2.s-1] ("shsum").
  3.74823520E+08           2          21
  3.99199008E+08           2          23

 Total Heating :  1.103E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.062E+09      4.664E+07          0.000
              286.72     -1.982E+08      1.042E+08          0.000
              258.24     -3.043E+08      2.354E+08          0.000
              231.88      7.272E+17      5.219E+08          1.000
              207.62            NaN      1.011E+09          1.000
              185.47            NaN      1.351E+09          1.000
              165.43      7.324E+17      1.029E+09          1.000
              147.50      2.607E+07      5.300E+08        -19.329
              131.68      2.437E+06      7.620E+07        -30.264
              117.97      9.922E+03      4.446E+05        -43.809
              106.37      7.238E+17      1.555E+01          1.000
               96.88     -4.011E-02      4.475E-08          1.000
               89.49      1.032E-21      1.781E-19       -171.657
               84.22      0.000E+00      0.000E+00       -171.657
               81.05      0.000E+00      0.000E+00       -171.657
               80.00      0.000E+00      0.000E+00       -171.657
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.0672331E-04
 entot depart   110253.34       110253.34    
 shsum :  1.41200794E+09  1.50490010E+10  1.50488904E+10  1.50488904E+10
 shsum :  1.43877171E+09  1.74132285E+10  2.36422707E+09  1.74131180E+10
 shsum :  1.45426675E+09  1.91320986E+10  1.71887002E+09  1.91319880E+10
 shsum :  1.59806464E+09  2.45839340E+10  5.45183539E+09  2.45838234E+10
 shsum :  1.59806464E+09  2.45839340E+10   23.262297      2.45838234E+10
 shsum :  1.59806464E+09  2.45839340E+10   1.4138944      2.45838234E+10
 fin  2.45839340E+10  1.59806464E+09   18.823643    
   15.383567    
 -4.14146114E+14   18.823643    
 ezero   0.0000000    
  2.45839340E+10
  2.20013793E+15

Total energy input of :3.008E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.458E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.458E+10)
                                           + heating (elhsum =1.103E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  15.38 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0042E+10 [eV/cm2/s]
                                                             or : 4.8133E-02 [erg/cm2/s]
 That variable "errorgaupin" is:          103

 MAIN : Total energy deposition in [CO2] is 1.502E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.361E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.717E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.448E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.329E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.416E+00 [eV.cm-2.s-1] ("shsum").
  3.73044608E+08           2          21
  3.97160640E+08           2          23

 Total Heating :  1.103E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      4.604E+07          0.000
              286.72     -1.962E+08      1.027E+08          0.000
              258.24     -3.017E+08      2.316E+08          0.000
              231.88      7.272E+17      5.135E+08          1.000
              207.62            NaN      9.999E+08          1.000
              185.47            NaN      1.350E+09          1.000
              165.43      7.324E+17      1.038E+09          1.000
              147.50      2.707E+07      5.373E+08        -18.851
              131.68      2.537E+06      7.906E+07        -30.160
              117.97      1.060E+04      4.690E+05        -43.259
              106.37      7.238E+17      1.727E+01          1.000
               96.88     -4.011E-02      5.175E-08          1.000
               89.49      1.237E-21      2.129E-19       -171.067
               84.22      0.000E+00      0.000E+00       -171.067
               81.05      0.000E+00      0.000E+00       -171.067
               80.00      0.000E+00      0.000E+00       -171.067
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.0576183E-04
 entot depart   110297.52       110297.52    
 shsum :  1.41042202E+09  1.50193766E+10  1.50192660E+10  1.50192660E+10
 shsum :  1.43714931E+09  1.73802537E+10  2.36087808E+09  1.73801431E+10
 shsum :  1.45262758E+09  1.90969836E+10  1.71672998E+09  1.90968730E+10
 shsum :  1.59633280E+09  2.45446451E+10  5.44766157E+09  2.45445345E+10
 shsum :  1.59633280E+09  2.45446451E+10   23.290707      2.45445345E+10
 shsum :  1.59633280E+09  2.45446451E+10   1.4158540      2.45445345E+10
 fin  2.45446451E+10  1.59633280E+09   18.819099    
   15.375644    
 -4.14595441E+14   18.819099    
 ezero   0.0000000    
  2.45446451E+10
  2.20305677E+15

Total energy input of :3.004E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.454E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.454E+10)
                                           + heating (elhsum =1.103E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.82 eV (from qtoteV)
                                  or :  15.38 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0022E+10 [eV/cm2/s]
                                                             or : 4.8102E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.500E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.359E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.716E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.445E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.333E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.418E+00 [eV.cm-2.s-1] ("shsum").
  3.72264160E+08           2          21
  3.96237568E+08           2          23

 Total Heating :  1.105E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      4.576E+07          0.000
              286.72     -1.951E+08      1.019E+08          0.000
              258.24     -2.999E+08      2.293E+08          0.000
              231.88      7.272E+17      5.076E+08          1.000
              207.62            NaN      9.905E+08          1.000
              185.47            NaN      1.347E+09          1.000
              165.43      7.324E+17      1.045E+09          1.000
              147.50      2.804E+07      5.441E+08        -18.400
              131.68      2.641E+06      8.199E+07        -30.044
              117.97      1.132E+04      4.946E+05        -42.694
              106.37      7.238E+17      1.910E+01          1.000
               96.88     -4.011E-02      5.945E-08          1.000
               89.49      1.470E-21      2.521E-19       -170.513
               84.22      0.000E+00      0.000E+00       -170.513
               81.05      0.000E+00      0.000E+00       -170.513
               80.00      0.000E+00      0.000E+00       -170.513
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.0525589E-04
 entot depart   110473.20       110473.20    
 shsum :  1.40990592E+09  1.50032230E+10  1.50031124E+10  1.50031124E+10
 shsum :  1.43661414E+09  1.73626122E+10  2.35938918E+09  1.73625016E+10
 shsum :  1.45208486E+09  1.90785085E+10  1.71589709E+09  1.90783980E+10
 shsum :  1.59573568E+09  2.45240095E+10  5.44549990E+09  2.45238989E+10
 shsum :  1.59573568E+09  2.45240095E+10   23.330709      2.45238989E+10
 shsum :  1.59573568E+09  2.45240095E+10   1.4181819      2.45238989E+10
 fin  2.45240095E+10  1.59573568E+09   18.814110    
   15.368466    
 -4.14750563E+14   18.814110    
 ezero   0.0000000    
  2.45240095E+10
  2.20446552E+15

Total energy input of :3.002E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.452E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.452E+10)
                                           + heating (elhsum =1.105E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  15.37 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 270.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0027E+10 [eV/cm2/s]
                                                             or : 4.8110E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.500E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.360E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.717E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 5.446E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.338E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.421E+00 [eV.cm-2.s-1] ("shsum").
  3.72600704E+08           2          21
  3.96565952E+08           2          23

 Total Heating :  1.108E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      4.584E+07          0.000
              286.72     -1.950E+08      1.019E+08          0.000
              258.24     -2.992E+08      2.288E+08          0.000
              231.88      7.272E+17      5.049E+08          1.000
              207.62            NaN      9.840E+08          1.000
              185.47            NaN      1.343E+09          1.000
              165.43      7.324E+17      1.050E+09          1.000
              147.50      2.894E+07      5.499E+08        -17.999
              131.68      2.744E+06      8.485E+07        -29.925
              117.97      1.207E+04      5.204E+05        -42.133
              106.37      7.238E+17      2.093E+01          1.000
               96.88     -4.011E-02      6.741E-08          1.000
               89.49      1.717E-21      2.937E-19       -170.006
               84.22      0.000E+00      0.000E+00       -170.006
               81.05      0.000E+00      0.000E+00       -170.006
               80.00      0.000E+00      0.000E+00       -170.006
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  7.0529792E-04
 entot depart   110787.66       110787.66    
 shsum :  1.41062195E+09  1.50031954E+10  1.50030848E+10  1.50030848E+10
 shsum :  1.43733171E+09  1.73632983E+10  2.36010214E+09  1.73631877E+10
 shsum :  1.45280538E+09  1.90798356E+10  1.71653670E+09  1.90797251E+10
 shsum :  1.59644762E+09  2.45255250E+10  5.44569037E+09  2.45254144E+10
 shsum :  1.59644762E+09  2.45255250E+10   23.381050      2.45254144E+10
 shsum :  1.59644762E+09  2.45255250E+10   1.4207731      2.45254144E+10
 fin  2.45255250E+10  1.59644762E+09   18.808924    
   15.362561    
 -4.14565611E+14   18.808924    
 ezero   0.0000000    
  2.45255250E+10
  2.20409024E+15

Total energy input of :3.003E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.453E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =2.453E+10)
                                           + heating (elhsum =1.108E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.81 eV (from qtoteV)
                                  or :  15.36 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.9701E+10 [eV/cm2/s]
                                                             or : 7.9630E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 2.871E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.952E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.809E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.917E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.914E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.641E+00 [eV.cm-2.s-1] ("shsum").
  5.40948416E+08           2          21
  5.76879552E+08           2          23

 Total Heating :  1.750E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      5.236E+07          0.000
              286.72     -1.980E+08      1.179E+08          0.000
              258.24     -3.088E+08      2.711E+08          0.000
              231.88      7.272E+17      6.267E+08          1.000
              207.62            NaN      1.340E+09          1.000
              185.47            NaN      2.213E+09          1.000
              165.43      7.324E+17      2.166E+09          1.000
              147.50      5.333E+07      1.327E+09        -23.885
              131.68      5.425E+06      5.312E+08        -96.914
              117.97      2.187E+05      2.333E+07       -105.682
              106.37      7.238E+17      4.493E+04          1.000
               96.88     -3.987E-02      2.423E-02          1.000
               89.49      3.156E-15      5.245E-13       -165.197
               84.22      1.846E-28      4.539E-26       -244.819
               81.05      0.000E+00      0.000E+00       -244.819
               80.00      0.000E+00      0.000E+00       -244.819
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.0800136E-03
 entot depart   174975.91       174975.91    
 shsum :  2.38283008E+09  2.87138836E+10  2.87137096E+10  2.87137096E+10
 shsum :  2.42373043E+09  3.26656737E+10  3.95179085E+09  3.26654996E+10
 shsum :  2.44635469E+09  3.54745508E+10  2.80887680E+09  3.54743747E+10
 shsum :  2.64458394E+09  4.33910743E+10  7.91652198E+09  4.33908982E+10
 shsum :  2.64458394E+09  4.33910743E+10   29.138557      4.33908982E+10
 shsum :  2.64458394E+09  4.33910743E+10   1.6405782      4.33908982E+10
 fin  4.33910743E+10  2.64458394E+09   18.793386    
   16.407524    
 -2.50259507E+14   18.793386    
 ezero   0.0000000    
  4.33910743E+10
  1.33163609E+15

Total energy input of :4.970E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.339E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.339E+10)
                                           + heating (elhsum =1.750E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  16.41 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.7691E+10 [eV/cm2/s]
                                                             or : 7.6411E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.726E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.793E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.702E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.690E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.868E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.625E+00 [eV.cm-2.s-1] ("shsum").
  5.24016672E+08           2          21
  5.58555136E+08           2          23

 Total Heating :  1.691E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      5.122E+07          0.000
              286.72     -1.960E+08      1.151E+08          0.000
              258.24     -3.057E+08      2.639E+08          0.000
              231.88      7.272E+17      6.079E+08          1.000
              207.62            NaN      1.296E+09          1.000
              185.47            NaN      2.127E+09          1.000
              165.43      7.324E+17      2.062E+09          1.000
              147.50      5.224E+07      1.255E+09        -23.027
              131.68      5.353E+06      4.826E+08        -89.162
              117.97      1.905E+05      1.858E+07        -96.543
              106.37      7.238E+17      3.029E+04          1.000
               96.88     -4.000E-02      9.413E-03          1.000
               89.49      1.125E-15      1.868E-13       -165.015
               84.22      5.878E-29      1.241E-26       -210.186
               81.05      0.000E+00      0.000E+00       -210.186
               80.00      0.000E+00      0.000E+00       -210.186
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.0439983E-03
 entot depart   169073.27       169073.27    
 shsum :  2.28290150E+09  2.72557056E+10  2.72555356E+10  2.72555356E+10
 shsum :  2.32243789E+09  3.10486364E+10  3.79293133E+09  3.10484664E+10
 shsum :  2.34439962E+09  3.37510011E+10  2.70236544E+09  3.37508311E+10
 shsum :  2.53776717E+09  4.14407639E+10  7.68976486E+09  4.14405960E+10
 shsum :  2.53776717E+09  4.14407639E+10   28.675629      4.14405960E+10
 shsum :  2.53776717E+09  4.14407639E+10   1.6245871      4.14405960E+10
 fin  4.14407639E+10  2.53776717E+09   18.792505    
   16.329617    
 -2.60793149E+14   18.792505    
 ezero   0.0000000    
  4.14407639E+10
  1.38775078E+15

Total energy input of :4.769E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 4.144E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =4.144E+10)
                                           + heating (elhsum =1.691E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  16.33 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.5584E+10 [eV/cm2/s]
                                                             or : 7.3034E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           74

 MAIN : Total energy deposition in [CO2] is 2.574E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.626E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.590E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.446E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.818E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.607E+00 [eV.cm-2.s-1] ("shsum").
  5.07201312E+08           2          21
  5.40444800E+08           2          23

 Total Heating :  1.629E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.059E+09      5.042E+07          0.000
              286.72     -1.949E+08      1.130E+08          0.000
              258.24     -3.037E+08      2.583E+08          0.000
              231.88      7.272E+17      5.919E+08          1.000
              207.62            NaN      1.254E+09          1.000
              185.47            NaN      2.035E+09          1.000
              165.43      7.324E+17      1.947E+09          1.000
              147.50      5.070E+07      1.176E+09        -22.196
              131.68      5.253E+06      4.312E+08        -81.090
              117.97      1.611E+05      1.426E+07        -87.471
              106.37      7.238E+17      1.896E+04          1.000
               96.88     -4.007E-02      3.217E-03          1.000
               89.49      3.497E-16      5.803E-14       -164.961
               84.22      1.590E-29      1.077E-27        -66.753
               81.05      0.000E+00      0.000E+00        -66.753
               80.00      0.000E+00      0.000E+00        -66.753
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.0057838E-03
 entot depart   162861.83       162861.83    
 shsum :  2.17838592E+09  2.57374126E+10  2.57372488E+10  2.57372488E+10
 shsum :  2.21647514E+09  2.93630648E+10  3.62565299E+09  2.93629010E+10
 shsum :  2.23772954E+09  3.19527485E+10  2.58968448E+09  3.19525847E+10
 shsum :  2.42582835E+09  3.93985556E+10  7.44580608E+09  3.93983918E+10
 shsum :  2.42582835E+09  3.93985556E+10   28.180252      3.93983918E+10
 shsum :  2.42582835E+09  3.93985556E+10   1.6071532      3.93983918E+10
 fin  3.93985556E+10  2.42582835E+09   18.790966    
   16.241280    
 -2.72827328E+14   18.790966    
 ezero   0.0000000    
  3.93985556E+10
  1.45190685E+15

Total energy input of :4.558E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.940E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.940E+10)
                                           + heating (elhsum =1.629E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  16.24 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 275.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 4.3410E+10 [eV/cm2/s]
                                                             or : 6.9551E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.418E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 3.452E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 2.472E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 7.187E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 2.765E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.588E+00 [eV.cm-2.s-1] ("shsum").
  4.90646176E+08           2          21
  5.22707648E+08           2          23

 Total Heating :  1.564E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.059E+09      4.999E+07          0.000
              286.72     -1.948E+08      1.118E+08          0.000
              258.24     -3.027E+08      2.544E+08          0.000
              231.88      7.272E+17      5.792E+08          1.000
              207.62            NaN      1.214E+09          1.000
              185.47            NaN      1.939E+09          1.000
              165.43      7.324E+17      1.822E+09          1.000
              147.50      4.869E+07      1.091E+09        -21.413
              131.68      5.112E+06      3.777E+08        -72.890
              117.97      1.317E+05      1.050E+07        -78.696
              106.37      7.238E+17      1.087E+04          1.000
               96.88     -4.009E-02      9.700E-04          1.000
               89.49      9.316E-17      1.547E-14       -165.076
               84.22      3.489E-30      9.643E-36          1.000
               81.05      0.000E+00      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  9.6585962E-04
 entot depart   156391.42       156391.42    
 shsum :  2.07082918E+09  2.41835500E+10  2.41833943E+10  2.41833943E+10
 shsum :  2.10740646E+09  2.76358799E+10  3.45232922E+09  2.76357243E+10
 shsum :  2.12791539E+09  3.01081170E+10  2.47223706E+09  3.01079613E+10
 shsum :  2.31038746E+09  3.72953580E+10  7.18723891E+09  3.72952023E+10
 shsum :  2.31038746E+09  3.72953580E+10   27.651695      3.72952023E+10
 shsum :  2.31038746E+09  3.72953580E+10   1.5881362      3.72952023E+10
 fin  3.72953580E+10  2.31038746E+09   18.788847    
   16.142469    
 -2.86459420E+14   18.788847    
 ezero   0.0000000    
  3.72953580E+10
  1.52462494E+15

Total energy input of :4.341E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.730E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =3.730E+10)
                                           + heating (elhsum =1.564E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.79 eV (from qtoteV)
                                  or :  16.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.2643E+10 [eV/cm2/s]
                                                             or : 1.1639E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 4.597E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.702E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.957E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.023E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.392E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.807E+00 [eV.cm-2.s-1] ("shsum").
  6.84522560E+08           2          21
  7.30598656E+08           2          23

 Total Heating :  2.382E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      5.640E+07          0.000
              286.72     -1.978E+08      1.277E+08          0.000
              258.24     -3.095E+08      2.964E+08          0.000
              231.88      7.272E+17      6.998E+08          1.000
              207.62            NaN      1.573E+09          1.000
              185.47            NaN      2.929E+09          1.000
              165.43      7.324E+17      3.529E+09          1.000
              147.50      9.307E+07      2.431E+09        -25.123
              131.68      8.146E+06      1.310E+09       -159.814
              117.97      8.217E+05      2.014E+08       -244.091
              106.37      7.238E+17      1.379E+06          1.000
               96.88      2.291E-01      1.161E+02       -505.716
               89.49      3.346E-10      5.400E-08       -160.380
               84.22      7.935E-23      2.022E-20       -253.799
               81.05      0.000E+00      0.000E+00       -253.799
               80.00      0.000E+00      0.000E+00       -253.799
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.4600551E-03
 entot depart   238174.36       238174.36    
 shsum :  3.53898240E+09  4.59743969E+10  4.59741594E+10  4.59741594E+10
 shsum :  3.59427507E+09  5.16760494E+10  5.70165094E+09  5.16758118E+10
 shsum :  3.62367334E+09  5.56331540E+10  3.95710362E+09  5.56329165E+10
 shsum :  3.87022464E+09  6.58643517E+10  1.02311977E+10  6.58641142E+10
 shsum :  3.87022464E+09  6.58643517E+10   33.923565      6.58641142E+10
 shsum :  3.87022464E+09  6.58643517E+10   1.8070691      6.58641142E+10
 fin  6.58643517E+10  3.87022464E+09   18.769833    
   17.018225    
 -1.71006170E+14   18.769833    
 ezero   0.0000000    
  6.58643517E+10
  9.11069199E+14

Total energy input of :7.264E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.586E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.586E+10)
                                           + heating (elhsum =2.382E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  17.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.8226E+10 [eV/cm2/s]
                                                             or : 1.0931E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 4.258E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.372E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.745E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.820E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.315E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.782E+00 [eV.cm-2.s-1] ("shsum").
  6.57305856E+08           2          21
  7.01182272E+08           2          23

 Total Heating :  2.271E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      5.503E+07          0.000
              286.72     -1.957E+08      1.242E+08          0.000
              258.24     -3.065E+08      2.875E+08          0.000
              231.88      7.272E+17      6.758E+08          1.000
              207.62            NaN      1.511E+09          1.000
              185.47            NaN      2.785E+09          1.000
              165.43      7.324E+17      3.290E+09          1.000
              147.50      8.879E+07      2.231E+09        -24.128
              131.68      7.808E+06      1.171E+09       -148.914
              117.97      7.254E+05      1.549E+08       -212.551
              106.37      7.238E+17      8.940E+05          1.000
               96.88      7.833E-02      4.085E+01       -520.521
               89.49      5.166E-11      8.432E-09       -162.216
               84.22      9.623E-24      2.464E-21       -255.049
               81.05      0.000E+00      0.000E+00       -255.049
               80.00      0.000E+00      0.000E+00       -255.049
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.3900462E-03
 entot depart   227133.31       227133.31    
 shsum :  3.31537792E+09  4.25774572E+10  4.25772319E+10  4.25772319E+10
 shsum :  3.36801920E+09  4.79498813E+10  5.37242419E+09  4.79496561E+10
 shsum :  3.39619968E+09  5.16945551E+10  3.74467507E+09  5.16943299E+10
 shsum :  3.63432038E+09  6.15146291E+10  9.82007603E+09  6.15144079E+10
 shsum :  3.63432038E+09  6.15146291E+10   33.150936      6.15144079E+10
 shsum :  3.63432038E+09  6.15146291E+10   1.7820431      6.15144079E+10
 fin  6.15146291E+10  3.63432038E+09   18.772715    
   16.926033    
 -1.82106211E+14   18.772715    
 ezero   0.0000000    
  6.15146291E+10
  9.70058025E+14

Total energy input of :6.823E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.151E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.151E+10)
                                           + heating (elhsum =2.271E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  16.93 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 6.3570E+10 [eV/cm2/s]
                                                             or : 1.0185E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 3.903E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.022E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.517E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 9.370E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.230E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.754E+00 [eV.cm-2.s-1] ("shsum").
  6.29006208E+08           2          21
  6.70733376E+08           2          23

 Total Heating :  2.152E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.059E+09      5.399E+07          0.000
              286.72     -1.947E+08      1.215E+08          0.000
              258.24     -3.046E+08      2.802E+08          0.000
              231.88      7.272E+17      6.548E+08          1.000
              207.62            NaN      1.452E+09          1.000
              185.47            NaN      2.632E+09          1.000
              165.43      7.324E+17      3.027E+09          1.000
              147.50      8.336E+07      2.017E+09        -23.195
              131.68      7.438E+06      1.022E+09       -136.459
              117.97      6.161E+05      1.124E+08       -181.448
              106.37      7.238E+17      5.313E+05          1.000
               96.88      2.099E-03      1.117E+01      -5318.346
               89.49      7.388E-12      1.206E-09       -162.225
               84.22      1.166E-24      2.988E-22       -255.340
               81.05      0.000E+00      0.000E+00       -255.340
               80.00      0.000E+00      0.000E+00       -255.340
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.3147192E-03
 entot depart   215212.80       215212.80    
 shsum :  3.08041779E+09  3.90296207E+10  3.90294036E+10  3.90294036E+10
 shsum :  3.13020646E+09  4.40513004E+10  5.02168166E+09  4.40510874E+10
 shsum :  3.15706368E+09  4.75680276E+10  3.51672909E+09  4.75678147E+10
 shsum :  3.38586726E+09  5.69376481E+10  9.36962048E+09  5.69374351E+10
 shsum :  3.38586726E+09  5.69376481E+10   32.301643      5.69374351E+10
 shsum :  3.38586726E+09  5.69376481E+10   1.7539935      5.69374351E+10
 fin  5.69376481E+10  3.38586726E+09   18.774979    
   16.816267    
 -1.95469062E+14   18.774979    
 ezero   0.0000000    
  5.69376481E+10
  1.04111464E+15

Total energy input of :6.357E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.694E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.694E+10)
                                           + heating (elhsum =2.152E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.77 eV (from qtoteV)
                                  or :  16.82 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 280.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 5.8742E+10 [eV/cm2/s]
                                                             or : 9.4117E-02 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 3.539E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 4.654E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 3.276E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 8.883E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.137E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.722E+00 [eV.cm-2.s-1] ("shsum").
  5.99584960E+08           2          21
  6.39212032E+08           2          23

 Total Heating :  2.025E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.059E+09      5.327E+07          0.000
              286.72     -1.947E+08      1.196E+08          0.000
              258.24     -3.039E+08      2.745E+08          0.000
              231.88      7.272E+17      6.368E+08          1.000
              207.62            NaN      1.395E+09          1.000
              185.47            NaN      2.470E+09          1.000
              165.43      7.324E+17      2.743E+09          1.000
              147.50      7.676E+07      1.793E+09        -22.358
              131.68      7.027E+06      8.677E+08       -122.485
              117.97      4.970E+05      7.589E+07       -151.691
              106.37      7.238E+17      2.824E+05          1.000
               96.88     -2.864E-02      2.226E+00          1.000
               89.49      7.519E-13      1.229E-10       -162.487
               84.22      8.610E-26      2.220E-23       -256.851
               81.05      0.000E+00      0.000E+00       -256.851
               80.00      0.000E+00      0.000E+00       -256.851
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.2348281E-03
 entot depart   202451.88       202451.88    
 shsum :  2.83768934E+09  3.53916109E+10  3.53914102E+10  3.53914102E+10
 shsum :  2.88445261E+09  4.00455680E+10  4.65395507E+09  4.00453632E+10
 shsum :  2.90988902E+09  4.33211965E+10  3.27562752E+09  4.33209917E+10
 shsum :  3.12852326E+09  5.22038559E+10  8.88265728E+09  5.22036511E+10
 shsum :  3.12852326E+09  5.22038559E+10   31.368441      5.22036511E+10
 shsum :  3.12852326E+09  5.22038559E+10   1.7224485      5.22036511E+10
 fin  5.22038559E+10  3.12852326E+09   18.776400    
   16.686420    
 -2.11547826E+14   18.776400    
 ezero   0.0000000    
  5.22038559E+10
  1.12666871E+15

Total energy input of :5.874E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 5.220E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =5.220E+10)
                                           + heating (elhsum =2.025E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.78 eV (from qtoteV)
                                  or :  16.69 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.7164E+10 [eV/cm2/s]
                                                             or : 1.5568E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 6.533E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.462E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.071E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.228E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.777E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.932E+00 [eV.cm-2.s-1] ("shsum").
  8.00765376E+08           2          21
  8.55194624E+08           2          23

 Total Heating :  2.947E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      5.940E+07          0.000
              286.72     -1.979E+08      1.350E+08          0.000
              258.24     -3.097E+08      3.153E+08          0.000
              231.88      7.272E+17      7.529E+08          1.000
              207.62            NaN      1.738E+09          1.000
              185.47            NaN      3.473E+09          1.000
              165.43      7.324E+17      4.845E+09          1.000
              147.50      1.302E+08      3.799E+09        -28.179
              131.68      1.236E+07      2.233E+09       -179.720
              117.97      1.440E+06      6.487E+08       -449.580
              106.37      7.238E+17      1.101E+07          1.000
               96.88      7.843E+00      8.530E+03      -1086.534
               89.49      1.426E-06      5.392E-04       -377.127
               84.22      2.385E-18      5.967E-16       -249.140
               81.05      7.839E-32      6.880E-38          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.8237394E-03
 entot depart   294713.50       294713.50    
 shsum :  4.79192678E+09  6.53262029E+10  6.53259080E+10  6.53259080E+10
 shsum :  4.86099200E+09  7.27885742E+10  7.46237542E+09  7.27882793E+10
 shsum :  4.89655091E+09  7.78599793E+10  5.07140250E+09  7.78596844E+10
 shsum :  5.18432154E+09  9.01429740E+10  1.22829937E+10  9.01426790E+10
 shsum :  5.18432154E+09  9.01429740E+10   37.773590      9.01426790E+10
 shsum :  5.18432154E+09  9.01429740E+10   1.9319515      9.01426790E+10
 fin  9.01429740E+10  5.18432154E+09   18.741867    
   17.387613    
 -1.27660345E+14   18.741867    
 ezero   0.0000000    
  9.01429740E+10
  6.81150675E+14

Total energy input of :9.716E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.014E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.014E+10)
                                           + heating (elhsum =2.947E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.39 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.0197E+10 [eV/cm2/s]
                                                             or : 1.4451E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 5.976E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.971E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.764E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.173E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.681E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.902E+00 [eV.cm-2.s-1] ("shsum").
  7.67762112E+08           2          21
  8.19504704E+08           2          23

 Total Heating :  2.799E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      5.795E+07          0.000
              286.72     -1.959E+08      1.313E+08          0.000
              258.24     -3.067E+08      3.055E+08          0.000
              231.88      7.272E+17      7.265E+08          1.000
              207.62            NaN      1.669E+09          1.000
              185.47            NaN      3.297E+09          1.000
              165.43      7.324E+17      4.495E+09          1.000
              147.50      1.247E+08      3.434E+09        -26.539
              131.68      1.144E+07      1.990E+09       -172.911
              117.97      1.322E+06      5.121E+08       -386.444
              106.37      7.238E+17      6.932E+06          1.000
               96.88      3.995E+00      3.544E+03       -886.106
               89.49      2.314E-07      6.549E-05       -281.999
               84.22      1.569E-19      3.936E-17       -249.888
               81.05      2.549E-33      1.171E-39          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.7233510E-03
 entot depart   279909.34       279909.34    
 shsum :  4.43486618E+09  5.97604680E+10  5.97601894E+10  5.97601894E+10
 shsum :  4.50012979E+09  6.67315814E+10  6.97111552E+09  6.67313029E+10
 shsum :  4.53401446E+09  7.14956964E+10  4.76411904E+09  7.14954179E+10
 shsum :  4.81084211E+09  8.32283689E+10  1.17326735E+10  8.32280904E+10
 shsum :  4.81084211E+09  8.32283689E+10   36.812454      8.32280904E+10
 shsum :  4.81084211E+09  8.32283689E+10   1.9024136      8.32280904E+10
 fin  8.32283689E+10  4.81084211E+09   18.748589    
   17.300167    
 -1.37570982E+14   18.748589    
 ezero   0.0000000    
  8.32283689E+10
  7.33767178E+14

Total energy input of :9.020E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.323E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.323E+10)
                                           + heating (elhsum =2.799E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.75 eV (from qtoteV)
                                  or :  17.30 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 8.2825E+10 [eV/cm2/s]
                                                             or : 1.3270E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 5.393E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 6.443E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.431E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.112E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.574E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.869E+00 [eV.cm-2.s-1] ("shsum").
  7.32499392E+08           2          21
  7.81549568E+08           2          23

 Total Heating :  2.636E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.059E+09      5.680E+07          0.000
              286.72     -1.948E+08      1.283E+08          0.000
              258.24     -3.049E+08      2.974E+08          0.000
              231.88      7.272E+17      7.030E+08          1.000
              207.62            NaN      1.601E+09          1.000
              185.47            NaN      3.109E+09          1.000
              165.43      7.324E+17      4.108E+09          1.000
              147.50      1.171E+08      3.045E+09        -24.997
              131.68      1.047E+07      1.731E+09       -164.431
              117.97      1.173E+06      3.805E+08       -323.297
              106.37      7.238E+17      3.988E+06          1.000
               96.88      1.664E+00      1.157E+03       -694.746
               89.49      2.403E-08      5.149E-06       -213.259
               84.22      1.126E-20      2.829E-18       -250.240
               81.05      7.147E-35      0.000E+00          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.6144975E-03
 entot depart   263623.91       263623.91    
 shsum :  4.05835930E+09  5.39276247E+10  5.39273626E+10  5.39273626E+10
 shsum :  4.11950054E+09  6.03710996E+10  6.44347699E+09  6.03708375E+10
 shsum :  4.15154970E+09  6.48022794E+10  4.43117875E+09  6.48020173E+10
 shsum :  4.41612288E+09  7.59240950E+10  1.11218125E+10  7.59238328E+10
 shsum :  4.41612288E+09  7.59240950E+10   35.737816      7.59238328E+10
 shsum :  4.41612288E+09  7.59240950E+10   1.8687217      7.59238328E+10
 fin  7.59240950E+10  4.41612288E+09   18.755136    
   17.192478    
 -1.49867263E+14   18.755136    
 ezero   0.0000000    
  7.59240950E+10
  7.99073230E+14

Total energy input of :8.282E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 7.592E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =7.592E+10)
                                           + heating (elhsum =2.636E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  17.19 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 285.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 7.5155E+10 [eV/cm2/s]
                                                             or : 1.2041E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 4.793E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 5.885E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.075E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.045E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.453E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.830E+00 [eV.cm-2.s-1] ("shsum").
  6.94624064E+08           2          21
  7.40947072E+08           2          23

 Total Heating :  2.458E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      5.594E+07          0.000
              286.72     -1.949E+08      1.260E+08          0.000
              258.24     -3.044E+08      2.907E+08          0.000
              231.88      7.272E+17      6.824E+08          1.000
              207.62            NaN      1.535E+09          1.000
              185.47            NaN      2.909E+09          1.000
              165.43      7.324E+17      3.685E+09          1.000
              147.50      1.072E+08      2.640E+09        -23.625
              131.68      9.445E+06      1.461E+09       -153.697
              117.97      9.927E+05      2.613E+08       -262.178
              106.37      7.238E+17      2.056E+06          1.000
               96.88      5.117E-01      2.727E+02       -531.961
               89.49      1.499E-09      2.382E-07       -157.874
               84.22      4.044E-22      1.022E-19       -251.826
               81.05      0.000E+00      0.000E+00       -251.826
               80.00      0.000E+00      0.000E+00       -251.826
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.4979956E-03
 entot depart   245818.91       245818.91    
 shsum :  3.66813594E+09  4.79284634E+10  4.79282176E+10  4.79282176E+10
 shsum :  3.72486528E+09  5.38138173E+10  5.88535347E+09  5.38135716E+10
 shsum :  3.75492070E+09  5.78889728E+10  4.07515366E+09  5.78887270E+10
 shsum :  4.00590490E+09  6.83402977E+10  1.04513260E+10  6.83400520E+10
 shsum :  4.00590490E+09  6.83402977E+10   34.533466      6.83400520E+10
 shsum :  4.00590490E+09  6.83402977E+10   1.8300409      6.83400520E+10
 fin  6.83402977E+10  4.00590490E+09   18.761070    
   17.059891    
 -1.65214171E+14   18.761070    
 ezero   0.0000000    
  6.83402977E+10
  8.80622311E+14

Total energy input of :7.516E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 6.834E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =6.834E+10)
                                           + heating (elhsum =2.458E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.76 eV (from qtoteV)
                                  or :  17.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2225E+11 [eV/cm2/s]
                                                             or : 1.9587E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          100

 MAIN : Total energy deposition in [CO2] is 8.576E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.170E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.120E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.408E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.092E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.029E+00 [eV.cm-2.s-1] ("shsum").
  8.94063488E+08           2          21
  9.55348800E+08           2          23

 Total Heating :  3.439E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.062E+09      6.181E+07          0.000
              286.72     -1.983E+08      1.408E+08          0.000
              258.24     -3.100E+08      3.302E+08          0.000
              231.88      7.272E+17      7.940E+08          1.000
              207.62            NaN      1.862E+09          1.000
              185.47            NaN      3.883E+09          1.000
              165.43      7.324E+17      5.994E+09          1.000
              147.50      1.546E+08      5.329E+09        -33.482
              131.68      1.832E+07      3.254E+09       -176.620
              117.97      1.909E+06      1.315E+09       -688.014
              106.37      7.238E+17      4.884E+07          1.000
               96.88      5.364E+01      1.025E+05      -1909.079
               89.49      2.430E-04      2.363E-01       -971.536
               84.22      8.577E-15      2.136E-12       -248.060
               81.05      5.703E-28      1.233E-25       -215.118
               80.00      0.000E+00      0.000E+00       -215.118
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.1656705E-03
 entot depart   343910.44       343910.44    
 shsum :  6.08700006E+09  8.57623921E+10  8.57620480E+10  8.57620480E+10
 shsum :  6.16901427E+09  9.49319270E+10  9.16953805E+09  9.49315830E+10
 shsum :  6.21014221E+09  1.01052219E+11  6.12029235E+09  1.01051875E+11
 shsum :  6.53298893E+09  1.15128271E+11  1.40760515E+10  1.15127927E+11
 shsum :  6.53298893E+09  1.15128271E+11   40.918835      1.15127927E+11
 shsum :  6.53298893E+09  1.15128271E+11   2.0290723      1.15127927E+11
 fin  1.15128271E+11  6.53298893E+09   18.713057    
   17.622602    
 -1.01306199E+14   18.713057    
 ezero   0.0000000    
  1.15128271E+11
  5.41366434E+14

Total energy input of :1.223E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.151E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.151E+11)
                                           + heating (elhsum =3.439E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.1272E+11 [eV/cm2/s]
                                                             or : 1.8060E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 7.795E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.529E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.730E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.342E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.984E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.997E+00 [eV.cm-2.s-1] ("shsum").
  8.58209664E+08           2          21
  9.16525248E+08           2          23

 Total Heating :  3.265E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      6.036E+07          0.000
              286.72     -1.964E+08      1.371E+08          0.000
              258.24     -3.072E+08      3.202E+08          0.000
              231.88      7.272E+17      7.667E+08          1.000
              207.62            NaN      1.789E+09          1.000
              185.47            NaN      3.691E+09          1.000
              165.43      7.324E+17      5.568E+09          1.000
              147.50      1.505E+08      4.789E+09        -30.814
              131.68      1.658E+07      2.891E+09       -173.388
              117.97      1.792E+06      1.068E+09       -594.858
              106.37      7.238E+17      3.073E+07          1.000
               96.88      3.053E+01      4.853E+04      -1588.403
               89.49      5.160E-05      3.652E-02       -706.657
               84.22      6.983E-16      1.737E-13       -247.699
               81.05      4.314E-29      8.122E-27       -187.270
               80.00      0.000E+00      0.000E+00       -187.270
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.0379943E-03
 entot depart   326479.25       326479.25    
 shsum :  5.59424154E+09  7.79478139E+10  7.79474862E+10  7.79474862E+10
 shsum :  5.67142093E+09  8.64769720E+10  8.52915456E+09  8.64766444E+10
 shsum :  5.71049114E+09  9.22070794E+10  5.73010637E+09  9.22067517E+10
 shsum :  6.02059213E+09  1.05628107E+11  1.34210273E+10  1.05627779E+11
 shsum :  6.02059213E+09  1.05628107E+11   39.840389      1.05627779E+11
 shsum :  6.02059213E+09  1.05628107E+11   1.9972275      1.05627779E+11
 fin  1.05628107E+11  6.02059213E+09   18.722826    
   17.544472    
 -1.09928102E+14   18.722826    
 ezero   0.0000000    
  1.05628107E+11
  5.87134109E+14

Total energy input of :1.127E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.056E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.056E+11)
                                           + heating (elhsum =3.265E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.54 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0261E+11 [eV/cm2/s]
                                                             or : 1.6440E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          114

 MAIN : Total energy deposition in [CO2] is 6.973E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.838E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.304E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.269E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.862E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.960E+00 [eV.cm-2.s-1] ("shsum").
  8.19064960E+08           2          21
  8.74357248E+08           2          23

 Total Heating :  3.070E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      5.916E+07          0.000
              286.72     -1.954E+08      1.339E+08          0.000
              258.24     -3.054E+08      3.116E+08          0.000
              231.88      7.272E+17      7.420E+08          1.000
              207.62            NaN      1.718E+09          1.000
              185.47            NaN      3.486E+09          1.000
              165.43      7.324E+17      5.092E+09          1.000
              147.50      1.438E+08      4.207E+09        -28.263
              131.68      1.471E+07      2.508E+09       -169.478
              117.97      1.642E+06      8.197E+08       -498.193
              106.37      7.238E+17      1.744E+07          1.000
               96.88      1.474E+01      1.860E+04      -1260.822
               89.49      6.968E-06      3.358E-03       -480.831
               84.22      1.981E-17      4.930E-15       -247.876
               81.05      7.594E-31      9.482E-37          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.8989812E-03
 entot depart   307008.16       307008.16    
 shsum :  5.07308595E+09  6.97309921E+10  6.97306890E+10  6.97306890E+10
 shsum :  5.14500096E+09  7.75684997E+10  7.83750554E+09  7.75681966E+10
 shsum :  5.18180250E+09  8.28728934E+10  5.30439731E+09  8.28725903E+10
 shsum :  5.47750042E+09  9.55599094E+10  1.26870180E+10  9.55596063E+10
 shsum :  5.47750042E+09  9.55599094E+10   38.618797      9.55596063E+10
 shsum :  5.47750042E+09  9.55599094E+10   1.9604249      9.55596063E+10
 fin  9.55599094E+10  5.47750042E+09   18.733030    
   17.445898    
 -1.20827429E+14   18.733030    
 ezero   0.0000000    
  9.55599094E+10
  6.44996714E+14

Total energy input of :1.026E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 9.556E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =9.556E+10)
                                           + heating (elhsum =3.070E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.73 eV (from qtoteV)
                                  or :  17.45 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 290.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 9.2054E+10 [eV/cm2/s]
                                                             or : 1.4749E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 6.125E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 7.101E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 4.845E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.187E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.723E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.918E+00 [eV.cm-2.s-1] ("shsum").
  7.75977728E+08           2          21
  8.28132160E+08           2          23

 Total Heating :  2.854E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.060E+09      5.821E+07          0.000
              286.72     -1.954E+08      1.314E+08          0.000
              258.24     -3.049E+08      3.044E+08          0.000
              231.88      7.272E+17      7.199E+08          1.000
              207.62            NaN      1.647E+09          1.000
              185.47            NaN      3.266E+09          1.000
              165.43      7.324E+17      4.566E+09          1.000
              147.50      1.336E+08      3.599E+09        -25.940
              131.68      1.277E+07      2.110E+09       -164.242
              117.97      1.448E+06      5.830E+08       -401.478
              106.37      7.238E+17      8.731E+06          1.000
               96.88      5.618E+00      5.303E+03       -942.968
               89.49      5.121E-07      1.585E-04       -308.460
               84.22      3.994E-19      9.977E-17       -248.795
               81.05      7.631E-33      3.121E-39          1.000
               80.00      0.000E+00      0.000E+00          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.7494021E-03
 entot depart   285351.31       285351.31    
 shsum :  4.53119846E+09  6.12500439E+10  6.12497572E+10  6.12497572E+10
 shsum :  4.59744870E+09  6.83510743E+10  7.10102835E+09  6.83507876E+10
 shsum :  4.63176858E+09  7.31964293E+10  4.84535808E+09  7.31961426E+10
 shsum :  4.91131290E+09  8.50684723E+10  1.18720430E+10  8.50681856E+10
 shsum :  4.91131290E+09  8.50684723E+10   37.229748      8.50681856E+10
 shsum :  4.91131290E+09  8.50684723E+10   1.9175493      8.50681856E+10
 fin  8.50684723E+10  4.91131290E+09   18.743214    
   17.320923    
 -1.34756696E+14   18.743214    
 ezero   0.0000000    
  8.50684723E+10
  7.18962627E+14

Total energy input of :9.205E+10 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 8.507E+10 is absorbed (entot) 
                         through inelastic collisions (shsum =8.507E+10)
                                           + heating (elhsum =2.854E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.74 eV (from qtoteV)
                                  or :  17.32 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4725E+11 [eV/cm2/s]
                                                             or : 2.3593E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           69

 MAIN : Total energy deposition in [CO2] is 1.066E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.080E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.094E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.564E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.353E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.107E+00 [eV.cm-2.s-1] ("shsum").
  9.69568000E+08           2          21
  1.03653542E+09           2          23

 Total Heating :  3.864E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.063E+09      6.385E+07          0.000
              286.72     -1.992E+08      1.458E+08          0.000
              258.24     -3.107E+08      3.429E+08          0.000
              231.88      7.272E+17      8.277E+08          1.000
              207.62            NaN      1.959E+09          1.000
              185.47            NaN      4.200E+09          1.000
              165.43      7.324E+17      6.958E+09          1.000
              147.50      1.652E+08      6.907E+09        -40.814
              131.68      2.573E+07      4.357E+09       -168.300
              117.97      2.302E+06      2.104E+09       -912.771
              106.37      7.238E+17      1.433E+08          1.000
               96.88      1.898E+02      5.194E+05      -2736.180
               89.49      6.343E-03      1.216E+01      -1915.270
               84.22      3.427E-11      8.071E-09       -234.520
               81.05      4.773E-24      1.042E-21       -217.395
               80.00      0.000E+00      0.000E+00       -217.395
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.4854129E-03
 entot depart   386395.63       386395.63    
 shsum :  7.38721946E+09  1.06579091E+11  1.06578706E+11  1.06578706E+11
 shsum :  7.48134246E+09  1.17374616E+11  1.07955241E+10  1.17374231E+11
 shsum :  7.52751360E+09  1.24468945E+11  7.09432627E+09  1.24468560E+11
 shsum :  7.88038707E+09  1.40109169E+11  1.56402196E+10  1.40108775E+11
 shsum :  7.88038707E+09  1.40109169E+11   43.532463      1.40108775E+11
 shsum :  7.88038707E+09  1.40109169E+11   2.1069224      1.40108775E+11
 fin  1.40109169E+11  7.88038707E+09   18.685980    
   17.779478    
 -8.39847468E+13   18.685980    
 ezero   0.0000000    
  1.40109169E+11
  4.49453228E+14

Total energy input of :1.473E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.401E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.401E+11)
                                           + heating (elhsum =3.864E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.78 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.3521E+11 [eV/cm2/s]
                                                             or : 2.1664E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 9.652E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.002E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.631E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.490E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.238E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.074E+00 [eV.cm-2.s-1] ("shsum").
  9.32551616E+08           2          21
  9.96419648E+08           2          23

 Total Heating :  3.671E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.062E+09      6.243E+07          0.000
              286.72     -1.974E+08      1.421E+08          0.000
              258.24     -3.079E+08      3.328E+08          0.000
              231.88      7.272E+17      8.002E+08          1.000
              207.62            NaN      1.885E+09          1.000
              185.47            NaN      3.999E+09          1.000
              165.43      7.324E+17      6.482E+09          1.000
              147.50      1.641E+08      6.200E+09        -36.785
              131.68      2.304E+07      3.859E+09       -166.491
              117.97      2.171E+06      1.746E+09       -803.497
              106.37      7.238E+17      9.271E+07          1.000
               96.88      1.146E+02      2.687E+05      -2343.681
               89.49      1.704E-03      2.435E+00      -1427.733
               84.22      6.967E-13      1.710E-10       -244.402
               81.05      7.171E-26      1.575E-23       -218.658
               80.00      0.000E+00      0.000E+00       -218.658
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.3327575E-03
 entot depart   367142.22       367142.22    
 shsum :  6.76059085E+09  9.65203395E+10  9.65199708E+10  9.65199708E+10
 shsum :  6.84893286E+09  1.06538680E+11  1.00183409E+10  1.06538312E+11
 shsum :  6.89271245E+09  1.13170145E+11  6.63146445E+09  1.13169777E+11
 shsum :  7.23149670E+09  1.28074899E+11  1.49047511E+10  1.28074531E+11
 shsum :  7.23149670E+09  1.28074899E+11   42.378323      1.28074531E+11
 shsum :  7.23149670E+09  1.28074899E+11   2.0738766      1.28074531E+11
 fin  1.28074899E+11  7.23149670E+09   18.697927    
   17.710705    
 -9.15207870E+13   18.697927    
 ezero   0.0000000    
  1.28074899E+11
  4.89470244E+14

Total energy input of :1.352E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.281E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.281E+11)
                                           + heating (elhsum =3.671E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.70 eV (from qtoteV)
                                  or :  17.71 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2241E+11 [eV/cm2/s]
                                                             or : 1.9612E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 8.591E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.176E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.124E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.408E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.106E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.035E+00 [eV.cm-2.s-1] ("shsum").
  8.91413824E+08           2          21
  9.52055104E+08           2          23

 Total Heating :  3.454E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      6.122E+07          0.000
              286.72     -1.963E+08      1.389E+08          0.000
              258.24     -3.062E+08      3.240E+08          0.000
              231.88      7.272E+17      7.749E+08          1.000
              207.62            NaN      1.812E+09          1.000
              185.47            NaN      3.786E+09          1.000
              165.43      7.324E+17      5.948E+09          1.000
              147.50      1.603E+08      5.432E+09        -32.893
              131.68      2.010E+07      3.337E+09       -165.045
              117.97      2.012E+06      1.377E+09       -683.301
              106.37      7.238E+17      5.367E+07          1.000
               96.88      6.029E+01      1.155E+05      -1914.019
               89.49      3.044E-04      3.012E-01       -988.362
               84.22      1.181E-14      2.930E-12       -247.112
               81.05      8.011E-28      1.732E-25       -215.148
               80.00      0.000E+00      0.000E+00       -215.148
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.1662530E-03
 entot depart   345367.16       345367.16    
 shsum :  6.09619046E+09  8.59127808E+10  8.59124367E+10  8.59124367E+10
 shsum :  6.17822669E+09  9.50887055E+10  9.17592064E+09  9.50883615E+10
 shsum :  6.21936282E+09  1.01212783E+11  6.12407757E+09  1.01212439E+11
 shsum :  6.54213120E+09  1.15287884E+11  1.40751053E+10  1.15287540E+11
 shsum :  6.54213120E+09  1.15287884E+11   41.057358      1.15287540E+11
 shsum :  6.54213120E+09  1.15287884E+11   2.0352883      1.15287540E+11
 fin  1.15287884E+11  6.54213120E+09   18.710907    
   17.622374    
 -1.01164633E+14   18.710907    
 ezero   0.0000000    
  1.15287884E+11
  5.40671992E+14

Total energy input of :1.224E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.153E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.153E+11)
                                           + heating (elhsum =3.454E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.62 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 295.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.0901E+11 [eV/cm2/s]
                                                             or : 1.7465E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           72

 MAIN : Total energy deposition in [CO2] is 7.493E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 8.275E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 5.574E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.315E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 3.954E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 1.990E+00 [eV.cm-2.s-1] ("shsum").
  8.45240576E+08           2          21
  9.02469120E+08           2          23

 Total Heating :  3.208E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.061E+09      6.020E+07          0.000
              286.72     -1.962E+08      1.362E+08          0.000
              258.24     -3.057E+08      3.164E+08          0.000
              231.88      7.272E+17      7.518E+08          1.000
              207.62            NaN      1.739E+09          1.000
              185.47            NaN      3.557E+09          1.000
              165.43      7.324E+17      5.352E+09          1.000
              147.50      1.525E+08      4.622E+09        -29.300
              131.68      1.700E+07      2.798E+09       -163.606
              117.97      1.816E+06      1.012E+09       -556.029
              106.37      7.238E+17      2.700E+07          1.000
               96.88      2.596E+01      3.814E+04      -1468.103
               89.49      3.061E-05      1.910E-02       -622.965
               84.22      2.944E-16      7.297E-14       -246.863
               81.05      1.770E-29      9.553E-28        -52.972
               80.00      0.000E+00      0.000E+00        -52.972
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  1.9866016E-03
 entot depart   320809.13       320809.13    
 shsum :  5.40341504E+09  7.49284475E+10  7.49281280E+10  7.49281280E+10
 shsum :  5.47864781E+09  8.32032358E+10  8.27479091E+09  8.32029164E+10
 shsum :  5.51687987E+09  8.87768351E+10  5.57359565E+09  8.87765156E+10
 shsum :  5.82153882E+09  1.01922816E+11  1.31459809E+10  1.01922497E+11
 shsum :  5.82153882E+09  1.01922816E+11   39.538708      1.01922497E+11
 shsum :  5.82153882E+09  1.01922816E+11   1.9898473      1.01922497E+11
 fin  1.01922816E+11  5.82153882E+09   18.724537    
   17.507883    
 -1.13686828E+14   18.724537    
 ezero   0.0000000    
  1.01922816E+11
  6.07154294E+14

Total energy input of :1.090E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.019E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.019E+11)
                                           + heating (elhsum =3.208E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.72 eV (from qtoteV)
                                  or :  17.51 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7170E+11 [eV/cm2/s]
                                                             or : 2.7510E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 1.273E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.233E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.992E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.701E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.574E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.171E+00 [eV.cm-2.s-1] ("shsum").
  1.03150150E+09           2          21
  1.10325773E+09           2          23

 Total Heating :  4.231E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.064E+09      6.569E+07          0.000
              286.72     -2.004E+08      1.502E+08          0.000
              258.24     -3.117E+08      3.540E+08          0.000
              231.88      7.272E+17      8.567E+08          1.000
              207.62            NaN      2.039E+09          1.000
              185.47            NaN      4.450E+09          1.000
              165.43      7.324E+17      7.754E+09          1.000
              147.50      1.653E+08      8.438E+09        -50.039
              131.68      3.401E+07      5.525E+09       -161.458
              117.97      2.702E+06      2.945E+09      -1088.922
              106.37      7.238E+17      3.147E+08          1.000
               96.88      4.846E+02      1.659E+06      -3421.757
               89.49      5.756E-02      1.803E+02      -3131.764
               84.22      4.667E-09      6.897E-06      -1476.817
               81.05      4.954E-21      1.073E-18       -215.524
               80.00      1.644E-33      8.277E-41          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.7835066E-03
 entot depart   423067.19       423067.19    
 shsum :  8.66570445E+09  1.27259075E+11  1.27258649E+11  1.27258649E+11
 shsum :  8.77111603E+09  1.39586634E+11  1.23275581E+10  1.39586208E+11
 shsum :  8.82186342E+09  1.47578552E+11  7.99191501E+09  1.47578126E+11
 shsum :  9.20060928E+09  1.64585112E+11  1.70065572E+10  1.64584686E+11
 shsum :  9.20060928E+09  1.64585112E+11   45.735756      1.64584686E+11
 shsum :  9.20060928E+09  1.64585112E+11   2.1707880      1.64584686E+11
 fin  1.64585112E+11  9.20060928E+09   18.661690    
   17.888502    
 -7.19335299E+13   18.661690    
 ezero   0.0000000    
  1.64585112E+11
  3.85460967E+14

Total energy input of :1.717E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.646E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.646E+11)
                                           + heating (elhsum =4.231E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.89 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5724E+11 [eV/cm2/s]
                                                             or : 2.5193E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 1.150E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.142E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.465E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.621E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.453E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.137E+00 [eV.cm-2.s-1] ("shsum").
  9.94229760E+08           2          21
  1.06283162E+09           2          23

 Total Heating :  4.025E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.063E+09      6.430E+07          0.000
              286.72     -1.986E+08      1.465E+08          0.000
              258.24     -3.091E+08      3.441E+08          0.000
              231.88      7.272E+17      8.293E+08          1.000
              207.62            NaN      1.965E+09          1.000
              185.47            NaN      4.247E+09          1.000
              165.43      7.324E+17      7.247E+09          1.000
              147.50      1.675E+08      7.587E+09        -44.285
              131.68      3.039E+07      4.879E+09       -159.539
              117.97      2.528E+06      2.483E+09       -980.969
              106.37      7.238E+17      2.106E+08          1.000
               96.88      2.994E+02      9.055E+05      -3023.633
               89.49      1.848E-02      4.418E+01      -2389.348
               84.22      3.513E-10      8.226E-08       -233.143
               81.05      5.052E-23      1.101E-20       -217.014
               80.00      0.000E+00      0.000E+00       -217.014
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.6076979E-03
 entot depart   402536.44       402536.44    
 shsum :  7.90947123E+09  1.15011936E+11  1.15011535E+11  1.15011535E+11
 shsum :  8.00822528E+09  1.26436524E+11  1.14245878E+10  1.26436123E+11
 shsum :  8.05628467E+09  1.33901394E+11  7.46487194E+09  1.33900993E+11
 shsum :  8.41990400E+09  1.50109192E+11  1.62078044E+10  1.50108799E+11
 shsum :  8.41990400E+09  1.50109192E+11   44.530453      1.50108799E+11
 shsum :  8.41990400E+09  1.50109192E+11   2.1370962      1.50108799E+11
 fin  1.50109192E+11  8.41990400E+09   18.675112    
   17.827898    
 -7.86033038E+13   18.675112    
 ezero   0.0000000    
  1.50109192E+11
  4.20898708E+14

Total energy input of :1.572E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.501E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.501E+11)
                                           + heating (elhsum =4.025E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.68 eV (from qtoteV)
                                  or :  17.83 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4184E+11 [eV/cm2/s]
                                                             or : 2.2725E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.021E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.885E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.530E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.314E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.097E+00 [eV.cm-2.s-1] ("shsum").
  9.52188608E+08           2          21
  1.01744870E+09           2          23

 Total Heating :  3.791E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.062E+09      6.307E+07          0.000
              286.72     -1.975E+08      1.433E+08          0.000
              258.24     -3.074E+08      3.351E+08          0.000
              231.88      7.272E+17      8.037E+08          1.000
              207.62            NaN      1.891E+09          1.000
              185.47            NaN      4.030E+09          1.000
              165.43      7.324E+17      6.677E+09          1.000
              147.50      1.675E+08      6.654E+09        -38.720
              131.68      2.633E+07      4.204E+09       -158.666
              117.97      2.336E+06      1.997E+09       -854.051
              106.37      7.238E+17      1.263E+08          1.000
               96.88      1.645E+02      4.202E+05      -2552.756
               89.49      4.126E-03      7.017E+00      -1699.704
               84.22      3.656E-12      8.945E-10       -243.698
               81.05      3.895E-25      8.551E-23       -218.549
               80.00      0.000E+00      0.000E+00       -218.549
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.4158354E-03
 entot depart   379080.56       379080.56    
 shsum :  7.10604032E+09  1.02065455E+11  1.02065078E+11  1.02065078E+11
 shsum :  7.19752858E+09  1.12509059E+11  1.04436050E+10  1.12508682E+11
 shsum :  7.24261222E+09  1.19394288E+11  6.88523264E+09  1.19393911E+11
 shsum :  7.58896486E+09  1.34696665E+11  1.53023754E+10  1.34696288E+11
 shsum :  7.58896486E+09  1.34696665E+11   43.139534      1.34696288E+11
 shsum :  7.58896486E+09  1.34696665E+11   2.0974395      1.34696288E+11
 fin  1.34696665E+11  7.58896486E+09   18.690086    
   17.749018    
 -8.72098227E+13   18.690086    
 ezero   0.0000000    
  1.34696665E+11
  4.66610079E+14

Total energy input of :1.418E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.347E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.347E+11)
                                           + heating (elhsum =3.791E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.75 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 300.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.2568E+11 [eV/cm2/s]
                                                             or : 2.0136E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 8.862E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 9.391E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.254E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.428E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.153E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.050E+00 [eV.cm-2.s-1] ("shsum").
  9.04260096E+08           2          21
  9.65923840E+08           2          23

 Total Heating :  3.523E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.062E+09      6.200E+07          0.000
              286.72     -1.972E+08      1.405E+08          0.000
              258.24     -3.067E+08      3.271E+08          0.000
              231.88      7.272E+17      7.797E+08          1.000
              207.62            NaN      1.817E+09          1.000
              185.47            NaN      3.796E+09          1.000
              165.43      7.324E+17      6.036E+09          1.000
              147.50      1.637E+08      5.658E+09        -33.565
              131.68      2.195E+07      3.511E+09       -158.945
              117.97      2.120E+06      1.506E+09       -709.367
              106.37      7.238E+17      6.542E+07          1.000
               96.88      7.629E+01      1.543E+05      -2022.105
               89.49      5.462E-04      6.010E-01      -1099.255
               84.22      7.630E-14      1.869E-11       -243.952
               81.05      7.546E-27      1.655E-24       -218.333
               80.00      0.000E+00      0.000E+00       -218.333
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.2085996E-03
 entot depart   352333.59       352333.59    
 shsum :  6.26630963E+09  8.86208348E+10  8.86204826E+10  8.86204826E+10
 shsum :  6.34994995E+09  9.80119224E+10  9.39108864E+09  9.80115702E+10
 shsum :  6.39175834E+09  1.04265531E+11  6.25361101E+09  1.04265179E+11
 shsum :  6.71847731E+09  1.18547513E+11  1.42819799E+10  1.18547161E+11
 shsum :  6.71847731E+09  1.18547513E+11   41.527046      1.18547161E+11
 shsum :  6.71847731E+09  1.18547513E+11   2.0503702      1.18547161E+11
 fin  1.18547513E+11  6.71847731E+09   18.706343    
   17.644997    
 -9.85092692E+13   18.706343    
 ezero   0.0000000    
  1.18547513E+11
  5.26608927E+14

Total energy input of :1.257E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.185E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.185E+11)
                                           + heating (elhsum =3.523E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.71 eV (from qtoteV)
                                  or :  17.64 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9523E+11 [eV/cm2/s]
                                                             or : 3.1280E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.474E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.376E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.814E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.820E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.761E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.224E+00 [eV.cm-2.s-1] ("shsum").
  1.08303974E+09           2          21
  1.15890406E+09           2          23

 Total Heating :  4.548E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.065E+09      6.738E+07          0.000
              286.72     -2.018E+08      1.543E+08          0.000
              258.24     -3.130E+08      3.642E+08          0.000
              231.88      7.272E+17      8.826E+08          1.000
              207.62            NaN      2.107E+09          1.000
              185.47            NaN      4.653E+09          1.000
              165.43      7.324E+17      8.408E+09          1.000
              147.50      1.588E+08      9.864E+09        -61.094
              131.68      4.245E+07      6.732E+09       -157.600
              117.97      3.142E+06      3.797E+09      -1207.422
              106.37      7.238E+17      5.655E+08          1.000
               96.88      1.027E+03      4.042E+06      -3935.114
               89.49      2.759E-01      1.252E+03      -4536.759
               84.22      1.617E-07      4.073E-04      -2518.660
               81.05      2.777E-18      5.988E-16       -214.582
               80.00      2.786E-30      3.178E-37          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0603420E-03
 entot depart   454769.31       454769.31    
 shsum :  9.90162534E+09  1.47402064E+11  1.47401605E+11  1.47401605E+11
 shsum :  1.00175206E+10  1.61160610E+11  1.37585531E+10  1.61160151E+11
 shsum :  1.00724204E+10  1.69974694E+11  8.81408717E+09  1.69974235E+11
 shsum :  1.04735672E+10  1.88176204E+11  1.82015140E+10  1.88175745E+11
 shsum :  1.04735672E+10  1.88176204E+11   47.613464      1.88175745E+11
 shsum :  1.04735672E+10  1.88176204E+11   2.2240806      1.88175745E+11
 fin  1.88176204E+11  1.04735672E+10   18.640430    
   17.966772    
 -6.31907214E+13   18.640430    
 ezero   0.0000000    
  1.88176204E+11
  3.38998212E+14

Total energy input of :1.952E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.882E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.882E+11)
                                           + heating (elhsum =4.548E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7848E+11 [eV/cm2/s]
                                                             or : 2.8595E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.331E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.274E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.230E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.735E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.637E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.190E+00 [eV.cm-2.s-1] ("shsum").
  1.04596301E+09           2          21
  1.11865638E+09           2          23

 Total Heating :  4.333E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.064E+09      6.602E+07          0.000
              286.72     -2.001E+08      1.507E+08          0.000
              258.24     -3.105E+08      3.544E+08          0.000
              231.88      7.272E+17      8.554E+08          1.000
              207.62            NaN      2.033E+09          1.000
              185.47            NaN      4.450E+09          1.000
              165.43      7.324E+17      7.884E+09          1.000
              147.50      1.641E+08      8.893E+09        -53.195
              131.68      3.808E+07      5.931E+09       -154.758
              117.97      2.905E+06      3.235E+09      -1112.430
              106.37      7.238E+17      3.909E+08          1.000
               96.88      6.377E+02      2.272E+06      -3561.205
               89.49      1.013E-01      3.571E+02      -3524.939
               84.22      1.598E-08      2.782E-05      -1739.588
               81.05      2.028E-20      4.384E-18       -215.183
               80.00      8.615E-33      3.429E-40          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.8629694E-03
 entot depart   433324.81       433324.81    
 shsum :  9.02171648E+09  1.33056782E+11  1.33056348E+11  1.33056348E+11
 shsum :  9.13013760E+09  1.45796579E+11  1.27398031E+10  1.45796153E+11
 shsum :  9.18208205E+09  1.54026541E+11  8.22995968E+09  1.54026115E+11
 shsum :  9.56727398E+09  1.71378344E+11  1.73517947E+10  1.71377918E+11
 shsum :  9.56727398E+09  1.71378344E+11   46.371910      1.71377918E+11
 shsum :  9.56727398E+09  1.71378344E+11   2.1900277      1.71377918E+11
 fin  1.71378344E+11  9.56727398E+09   18.654814    
   17.912975    
 -6.91766852E+13   18.654814    
 ezero   0.0000000    
  1.71378344E+11
  3.70824826E+14

Total energy input of :1.785E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.714E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.714E+11)
                                           + heating (elhsum =4.333E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.91 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.6060E+11 [eV/cm2/s]
                                                             or : 2.5731E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.179E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.163E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.586E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.639E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.493E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.150E+00 [eV.cm-2.s-1] ("shsum").
  1.00362509E+09           2          21
  1.07290611E+09           2          23

 Total Heating :  4.086E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.063E+09      6.478E+07          0.000
              286.72     -1.989E+08      1.474E+08          0.000
              258.24     -3.088E+08      3.453E+08          0.000
              231.88      7.272E+17      8.295E+08          1.000
              207.62            NaN      1.959E+09          1.000
              185.47            NaN      4.232E+09          1.000
              165.43      7.324E+17      7.293E+09          1.000
              147.50      1.678E+08      7.821E+09        -45.600
              131.68      3.301E+07      5.095E+09       -153.345
              117.97      2.655E+06      2.641E+09       -993.404
              106.37      7.238E+17      2.430E+08          1.000
               96.88      3.560E+02      1.105E+06      -3103.250
               89.49      2.684E-02      6.888E+01      -2564.899
               84.22      7.755E-10      1.810E-07       -232.440
               81.05      1.130E-22      2.461E-20       -216.705
               80.00      0.000E+00      0.000E+00       -216.705
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.6476029E-03
 entot depart   408625.41       408625.41    
 shsum :  8.08540314E+09  1.17862859E+11  1.17862449E+11  1.17862449E+11
 shsum :  8.18566810E+09  1.29494385E+11  1.16315290E+10  1.29493975E+11
 shsum :  8.23433984E+09  1.37080504E+11  7.58612326E+09  1.37080095E+11
 shsum :  8.60126822E+09  1.53465733E+11  1.63852308E+10  1.53465324E+11
 shsum :  8.60126822E+09  1.53465733E+11   44.929794      1.53465324E+11
 shsum :  8.60126822E+09  1.53465733E+11   2.1497009      1.53465324E+11
 fin  1.53465733E+11  8.60126822E+09   18.671175    
   17.842222    
 -7.69458994E+13   18.671175    
 ezero   0.0000000    
  1.53465733E+11
  4.12110601E+14

Total energy input of :1.606E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.535E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.535E+11)
                                           + heating (elhsum =4.086E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.84 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 305.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.4181E+11 [eV/cm2/s]
                                                             or : 2.2720E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           82

 MAIN : Total energy deposition in [CO2] is 1.020E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.044E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 6.882E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.529E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.325E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.102E+00 [eV.cm-2.s-1] ("shsum").
  9.54749952E+08           2          21
  1.02030566E+09           2          23

 Total Heating :  3.802E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.063E+09      6.365E+07          0.000
              286.72     -1.985E+08      1.444E+08          0.000
              258.24     -3.080E+08      3.369E+08          0.000
              231.88      7.272E+17      8.048E+08          1.000
              207.62            NaN      1.884E+09          1.000
              185.47            NaN      3.996E+09          1.000
              165.43      7.324E+17      6.624E+09          1.000
              147.50      1.684E+08      6.665E+09        -38.589
              131.68      2.738E+07      4.240E+09       -153.823
              117.97      2.395E+06      2.030E+09       -846.849
              106.37      7.238E+17      1.307E+08          1.000
               96.88      1.715E+02      4.367E+05      -2545.673
               89.49      4.427E-03      7.553E+00      -1705.029
               84.22      1.346E-11      3.161E-09       -233.740
               81.05      1.889E-24      4.110E-22       -216.535
               80.00      0.000E+00      0.000E+00       -216.535
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.4149206E-03
 entot depart   380211.66       380211.66    
 shsum :  7.10488525E+09  1.02046892E+11  1.02046515E+11  1.02046515E+11
 shsum :  7.19633869E+09  1.12486932E+11  1.04400415E+10  1.12486556E+11
 shsum :  7.24140339E+09  1.19369261E+11  6.88232806E+09  1.19368884E+11
 shsum :  7.58748211E+09  1.34660030E+11  1.52907653E+10  1.34659654E+11
 shsum :  7.58748211E+09  1.34660030E+11   43.247200      1.34659654E+11
 shsum :  7.58748211E+09  1.34660030E+11   2.1015573      1.34659654E+11
 fin  1.34660030E+11  7.58748211E+09   18.689367    
   17.747658    
 -8.72268683E+13   18.689367    
 ezero   0.0000000    
  1.34660030E+11
  4.66719198E+14

Total energy input of :1.418E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.347E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.347E+11)
                                           + heating (elhsum =3.802E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.69 eV (from qtoteV)
                                  or :  17.75 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1756E+11 [eV/cm2/s]
                                                             or : 3.4857E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 1.667E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.508E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.562E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.925E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.923E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.269E+00 [eV.cm-2.s-1] ("shsum").
  1.12651789E+09           2          21
  1.20596531E+09           2          23

 Total Heating :  4.822E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.066E+09      6.901E+07          0.000
              286.72     -2.034E+08      1.582E+08          0.000
              258.24     -3.146E+08      3.738E+08          0.000
              231.88      7.272E+17      9.064E+08          1.000
              207.62            NaN      2.166E+09          1.000
              185.47            NaN      4.822E+09          1.000
              165.43      7.324E+17      8.946E+09          1.000
              147.50      1.489E+08      1.115E+10        -73.903
              131.68      5.045E+07      7.947E+09       -156.514
              117.97      3.628E+06      4.636E+09      -1276.970
              106.37      7.238E+17      8.838E+08          1.000
               96.88      1.906E+03      8.280E+06      -4342.582
               89.49      8.761E-01      5.301E+03      -6049.777
               84.22      2.240E-06      8.412E-03      -3753.658
               81.05      1.046E-15      2.252E-13       -214.243
               80.00      1.727E-27      4.122E-26        -22.877
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3159279E-03
 entot depart   482210.63       482210.63    
 shsum :  1.10780754E+10  1.66685377E+11  1.66684901E+11  1.66684901E+11
 shsum :  1.12036506E+10  1.81768815E+11  1.50834330E+10  1.81768339E+11
 shsum :  1.12623084E+10  1.91331238E+11  9.56243046E+09  1.91330763E+11
 shsum :  1.16828897E+10  2.10577359E+11  1.92461169E+10  2.10576884E+11
 shsum :  1.16828897E+10  2.10577359E+11   49.225937      2.10576884E+11
 shsum :  1.16828897E+10  2.10577359E+11   2.2690921      2.10576884E+11
 fin  2.10577359E+11  1.16828897E+10   18.622093    
   18.024424    
 -5.66497085E+13   18.622093    
 ezero   0.0000000    
  2.10577359E+11
  3.04206964E+14

Total energy input of :2.176E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.106E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.106E+11)
                                           + heating (elhsum =4.822E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9864E+11 [eV/cm2/s]
                                                             or : 3.1826E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 1.504E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.396E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.927E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.835E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.796E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.235E+00 [eV.cm-2.s-1] ("shsum").
  1.08982221E+09           2          21
  1.16609805E+09           2          23

 Total Heating :  4.601E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.065E+09      6.766E+07          0.000
              286.72     -2.017E+08      1.546E+08          0.000
              258.24     -3.122E+08      3.641E+08          0.000
              231.88      7.272E+17      8.794E+08          1.000
              207.62            NaN      2.093E+09          1.000
              185.47            NaN      4.620E+09          1.000
              165.43      7.324E+17      8.413E+09          1.000
              147.50      1.566E+08      1.009E+10        -63.393
              131.68      4.557E+07      6.989E+09       -152.382
              117.97      3.314E+06      3.978E+09      -1199.447
              106.37      7.238E+17      6.279E+08          1.000
               96.88      1.187E+03      4.716E+06      -3971.698
               89.49      3.560E-01      1.698E+03      -4767.940
               84.22      2.774E-07      7.497E-04      -2701.306
               81.05      5.531E-18      1.191E-15       -214.264
               80.00      5.629E-30      2.053E-30          0.635
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0985121E-03
 entot depart   460095.63       460095.63    
 shsum :  1.00816814E+10  1.50357819E+11  1.50357361E+11  1.50357361E+11
 shsum :  1.01990226E+10  1.64316185E+11  1.39583672E+10  1.64315726E+11
 shsum :  1.02544835E+10  1.73243498E+11  8.92730982E+09  1.73243040E+11
 shsum :  1.06584330E+10  1.91598117E+11  1.83546163E+10  1.91597658E+11
 shsum :  1.06584330E+10  1.91598117E+11   47.957275      1.91597658E+11
 shsum :  1.06584330E+10  1.91598117E+11   2.2348175      1.91597658E+11
 fin  1.91598117E+11  1.06584330E+10   18.637098    
   17.976200    
 -6.20947078E+13   18.637098    
 ezero   0.0000000    
  1.91598117E+11
  3.33177961E+14

Total energy input of :1.986E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.916E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.916E+11)
                                           + heating (elhsum =4.601E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.98 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7843E+11 [eV/cm2/s]
                                                             or : 2.8589E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           75

 MAIN : Total energy deposition in [CO2] is 1.330E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.273E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.226E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.734E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.648E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.194E+00 [eV.cm-2.s-1] ("shsum").
  1.04749952E+09           2          21
  1.12031578E+09           2          23

 Total Heating :  4.345E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.065E+09      6.639E+07          0.000
              286.72     -2.005E+08      1.513E+08          0.000
              258.24     -3.104E+08      3.548E+08          0.000
              231.88      7.272E+17      8.532E+08          1.000
              207.62            NaN      2.019E+09          1.000
              185.47            NaN      4.403E+09          1.000
              165.43      7.324E+17      7.811E+09          1.000
              147.50      1.637E+08      8.902E+09        -53.387
              131.68      3.970E+07      5.989E+09       -149.852
              117.97      2.988E+06      3.280E+09      -1096.668
              106.37      7.238E+17      4.034E+08          1.000
               96.88      6.654E+02      2.356E+06      -3538.966
               89.49      1.077E-01      3.805E+02      -3532.067
               84.22      1.764E-08      3.080E-05      -1745.397
               81.05      2.269E-20      4.898E-18       -214.877
               80.00      9.912E-33      3.902E-40          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.8613831E-03
 entot depart   434460.09       434460.09    
 shsum :  9.02008320E+09  1.33037023E+11  1.33036589E+11  1.33036589E+11
 shsum :  9.12844390E+09  1.45770480E+11  1.27334595E+10  1.45770054E+11
 shsum :  9.18036378E+09  1.53996755E+11  8.22626970E+09  1.53996329E+11
 shsum :  9.56524032E+09  1.71334746E+11  1.73379850E+10  1.71334320E+11
 shsum :  9.56524032E+09  1.71334746E+11   46.476219      1.71334320E+11
 shsum :  9.56524032E+09  1.71334746E+11   2.1940458      1.71334320E+11
 fin  1.71334746E+11  9.56524032E+09   18.654381    
   17.912226    
 -6.91913905E+13   18.654381    
 ezero   0.0000000    
  1.71334746E+11
  3.70912302E+14

Total energy input of :1.784E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.713E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.713E+11)
                                           + heating (elhsum =4.345E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.91 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 310.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.5717E+11 [eV/cm2/s]
                                                             or : 2.5181E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 1.150E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.141E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.458E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.618E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.474E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.145E+00 [eV.cm-2.s-1] ("shsum").
  9.98140608E+08           2          21
  1.06713472E+09           2          23

 Total Heating :  4.048E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.064E+09      6.521E+07          0.000
              286.72     -1.999E+08      1.481E+08          0.000
              258.24     -3.095E+08      3.461E+08          0.000
              231.88      7.272E+17      8.277E+08          1.000
              207.62            NaN      1.942E+09          1.000
              185.47            NaN      4.165E+09          1.000
              165.43      7.324E+17      7.125E+09          1.000
              147.50      1.683E+08      7.613E+09        -44.231
              131.68      3.298E+07      4.968E+09       -149.639
              117.97      2.663E+06      2.559E+09       -959.987
              106.37      7.238E+17      2.252E+08          1.000
               96.88      3.254E+02      9.760E+05      -2997.869
               89.49      2.112E-02      5.076E+01      -2402.528
               84.22      4.350E-10      1.015E-07       -232.207
               81.05      6.360E-23      1.383E-20       -216.455
               80.00      0.000E+00      0.000E+00       -216.455
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.6052380E-03
 entot depart   404762.97       404762.97    
 shsum :  7.90662042E+09  1.14972238E+11  1.14971836E+11  1.14971836E+11
 shsum :  8.00528128E+09  1.26387102E+11  1.14148618E+10  1.26386700E+11
 shsum :  8.05329715E+09  1.33845402E+11  7.45829837E+09  1.33845000E+11
 shsum :  8.41633536E+09  1.50028157E+11  1.61827553E+10  1.50027764E+11
 shsum :  8.41633536E+09  1.50028157E+11   44.739616      1.50027764E+11
 shsum :  8.41633536E+09  1.50028157E+11   2.1451583      1.50027764E+11
 fin  1.50028157E+11  8.41633536E+09   18.673969    
   17.825829    
 -7.86366317E+13   18.673969    
 ezero   0.0000000    
  1.50028157E+11
  4.21102921E+14

Total energy input of :1.572E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.500E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.500E+11)
                                           + heating (elhsum =4.048E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.67 eV (from qtoteV)
                                  or :  17.83 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3844E+11 [eV/cm2/s]
                                                             or : 3.8202E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           92

 MAIN : Total energy deposition in [CO2] is 1.848E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.630E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.024E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.016E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.062E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.307E+00 [eV.cm-2.s-1] ("shsum").
  1.16362470E+09           2          21
  1.24624013E+09           2          23

 Total Heating :  5.060E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.068E+09      7.058E+07          0.000
              286.72     -2.052E+08      1.620E+08          0.000
              258.24     -3.164E+08      3.831E+08          0.000
              231.88      7.272E+17      9.288E+08          1.000
              207.62            NaN      2.220E+09          1.000
              185.47            NaN      4.965E+09          1.000
              165.43      7.324E+17      9.391E+09          1.000
              147.50      1.375E+08      1.229E+10        -88.350
              131.68      5.766E+07      9.137E+09       -157.477
              117.97      4.146E+06      5.444E+09      -1311.917
              106.37      7.238E+17      1.250E+09          1.000
               96.88      3.176E+03      1.498E+07      -4715.055
               89.49      2.103E+00      1.598E+04      -7594.341
               84.22      1.647E-05      8.456E-02      -5131.787
               81.05      3.138E-13      6.643E-11       -210.731
               80.00      7.802E-25      1.861E-23        -22.855
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5499623E-03
 entot depart   505961.06       505961.06    
 shsum :  1.21808906E+10  1.84841339E+11  1.84840831E+11  1.84840831E+11
 shsum :  1.23153285E+10  2.01139208E+11  1.62978642E+10  2.01138700E+11
 shsum :  1.23773706E+10  2.11377471E+11  1.02382612E+10  2.11376964E+11
 shsum :  1.28147978E+10  2.31534264E+11  2.01567928E+10  2.31533756E+11
 shsum :  1.28147978E+10  2.31534264E+11   50.616646      2.31533756E+11
 shsum :  1.28147978E+10  2.31534264E+11   2.3074043      2.31533756E+11
 fin  2.31534264E+11  1.28147978E+10   18.606426    
   18.067726    
 -5.16459415E+13   18.606426    
 ezero   0.0000000    
  2.31534264E+11
  2.77570449E+14

Total energy input of :2.384E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.315E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.315E+11)
                                           + heating (elhsum =5.060E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.07 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1751E+11 [eV/cm2/s]
                                                             or : 3.4850E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           85

 MAIN : Total energy deposition in [CO2] is 1.667E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.508E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.558E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.923E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.933E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.273E+00 [eV.cm-2.s-1] ("shsum").
  1.12736717E+09           2          21
  1.20681510E+09           2          23

 Total Heating :  4.833E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.067E+09      6.924E+07          0.000
              286.72     -2.035E+08      1.584E+08          0.000
              258.24     -3.141E+08      3.733E+08          0.000
              231.88      7.272E+17      9.019E+08          1.000
              207.62            NaN      2.147E+09          1.000
              185.47            NaN      4.764E+09          1.000
              165.43      7.324E+17      8.854E+09          1.000
              147.50      1.473E+08      1.115E+10        -74.718
              131.68      5.248E+07      8.027E+09       -151.962
              117.97      3.747E+06      4.694E+09      -1251.701
              106.37      7.238E+17      9.082E+08          1.000
               96.88      1.990E+03      8.578E+06      -4309.469
               89.49      9.237E-01      5.595E+03      -6056.306
               84.22      2.438E-06      9.178E-03      -3763.260
               81.05      1.163E-15      2.499E-13       -213.955
               80.00      1.932E-27      4.598E-26        -22.801
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3140485E-03
 entot depart   483342.09       483342.09    
 shsum :  1.10762414E+10  1.66667485E+11  1.66666994E+11  1.66666994E+11
 shsum :  1.12017449E+10  1.81743239E+11  1.50757530E+10  1.81742748E+11
 shsum :  1.12603709E+10  1.91300927E+11  9.55768115E+09  1.91300436E+11
 shsum :  1.16806052E+10  2.10531598E+11  1.92306688E+10  2.10531107E+11
 shsum :  1.16806052E+10  2.10531598E+11   49.326706      2.10531107E+11
 shsum :  1.16806052E+10  2.10531598E+11   2.2729790      2.10531107E+11
 fin  2.10531598E+11  1.16806052E+10   18.621799    
   18.024033    
 -5.66607856E+13   18.621799    
 ezero   0.0000000    
  2.10531598E+11
  3.04271287E+14

Total energy input of :2.175E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.105E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.105E+11)
                                           + heating (elhsum =4.833E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9514E+11 [eV/cm2/s]
                                                             or : 3.1266E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           76

 MAIN : Total energy deposition in [CO2] is 1.474E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.374E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.806E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.817E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.781E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.232E+00 [eV.cm-2.s-1] ("shsum").
  1.08518144E+09           2          21
  1.16113242E+09           2          23

 Total Heating :  4.570E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.066E+09      6.794E+07          0.000
              286.72     -2.022E+08      1.550E+08          0.000
              258.24     -3.122E+08      3.639E+08          0.000
              231.88      7.272E+17      8.753E+08          1.000
              207.62            NaN      2.072E+09          1.000
              185.47            NaN      4.548E+09          1.000
              165.43      7.324E+17      8.246E+09          1.000
              147.50      1.570E+08      9.878E+09        -61.906
              131.68      4.605E+07      6.866E+09       -148.110
              117.97      3.337E+06      3.898E+09      -1167.222
              106.37      7.238E+17      5.999E+08          1.000
               96.88      1.119E+03      4.341E+06      -3878.865
               89.49      3.096E-01      1.409E+03      -4551.556
               84.22      1.944E-07      4.929E-04      -2534.060
               81.05      3.462E-18      7.442E-16       -213.989
               80.00      3.525E-30      4.041E-37          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0568866E-03
 entot depart   456986.00       456986.00    
 shsum :  9.89812736E+09  1.47363758E+11  1.47363299E+11  1.47363299E+11
 shsum :  1.00138926E+10  1.61108361E+11  1.37446072E+10  1.61107902E+11
 shsum :  1.00687360E+10  1.69914057E+11  8.80569446E+09  1.69913598E+11
 shsum :  1.04692255E+10  1.88086616E+11  1.81725512E+10  1.88086157E+11
 shsum :  1.04692255E+10  1.88086616E+11   47.814865      1.88086157E+11
 shsum :  1.04692255E+10  1.88086616E+11   2.2318850      1.88086157E+11
 fin  1.88086616E+11  1.04692255E+10   18.639711    
   17.965666    
 -6.32169274E+13   18.639711    
 ezero   0.0000000    
  1.88086616E+11
  3.39151858E+14

Total energy input of :1.951E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.881E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.881E+11)
                                           + heating (elhsum =4.570E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 315.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.7157E+11 [eV/cm2/s]
                                                             or : 2.7490E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.272E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.231E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 7.981E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.697E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.604E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.182E+00 [eV.cm-2.s-1] ("shsum").
  1.03557715E+09           2          21
  1.10762586E+09           2          23

 Total Heating :  4.263E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.065E+09      6.670E+07          0.000
              286.72     -2.015E+08      1.517E+08          0.000
              258.24     -3.112E+08      3.547E+08          0.000
              231.88      7.272E+17      8.490E+08          1.000
              207.62            NaN      1.995E+09          1.000
              185.47            NaN      4.310E+09          1.000
              165.43      7.324E+17      7.551E+09          1.000
              147.50      1.652E+08      8.481E+09        -50.333
              131.68      3.846E+07      5.683E+09       -146.759
              117.97      2.933E+06      3.074E+09      -1046.872
              106.37      7.238E+17      3.462E+08          1.000
               96.88      5.499E+02      1.851E+06      -3364.332
               89.49      6.957E-02      2.194E+02      -3153.190
               84.22      6.322E-09      9.444E-06      -1492.833
               81.05      6.997E-21      1.509E-18       -214.650
               80.00      2.515E-33      1.123E-40          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.7792032E-03
 entot depart   426285.78       426285.78    
 shsum :  8.66088653E+09  1.27198740E+11  1.27198314E+11  1.27198314E+11
 shsum :  8.76613530E+09  1.39509105E+11  1.23103570E+10  1.39508679E+11
 shsum :  8.81680794E+09  1.47489817E+11  7.98071296E+09  1.47489391E+11
 shsum :  9.19464653E+09  1.64456825E+11  1.69670042E+10  1.64456399E+11
 shsum :  9.19464653E+09  1.64456825E+11   46.035305      1.64456399E+11
 shsum :  9.19464653E+09  1.64456825E+11   2.1824505      1.64456399E+11
 fin  1.64456825E+11  9.19464653E+09   18.660276    
   17.886150    
 -7.19801790E+13   18.660276    
 ezero   0.0000000    
  1.64456825E+11
  3.85740140E+14

Total energy input of :1.716E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.645E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.645E+11)
                                           + heating (elhsum =4.263E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.66 eV (from qtoteV)
                                  or :  17.89 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5765E+11 [eV/cm2/s]
                                                             or : 4.1281E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 2.016E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.740E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.084E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.095E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.182E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.340E+00 [eV.cm-2.s-1] ("shsum").
  1.19551283E+09           2          21
  1.28095411E+09           2          23

 Total Heating :  5.265E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.069E+09      7.212E+07          0.000
              286.72     -2.071E+08      1.657E+08          0.000
              258.24     -3.184E+08      3.920E+08          0.000
              231.88      7.272E+17      9.501E+08          1.000
              207.62            NaN      2.269E+09          1.000
              185.47            NaN      5.088E+09          1.000
              165.43      7.324E+17      9.758E+09          1.000
              147.50      1.262E+08      1.327E+10       -104.176
              131.68      6.384E+07      1.027E+10       -159.871
              117.97      4.683E+06      6.207E+09      -1324.527
              106.37      7.238E+17      1.640E+09          1.000
               96.88      4.819E+03      2.454E+07      -5091.403
               89.49      4.072E+00      3.692E+04      -9067.209
               84.22      7.404E-05      4.846E-01      -6544.297
               81.05      7.869E-11      1.582E-08       -200.113
               80.00      2.592E-22      6.106E-21        -22.556
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.7619486E-03
 entot depart   526467.38       526467.38    
 shsum :  1.31979581E+10  2.01643262E+11  2.01642738E+11  2.01642738E+11
 shsum :  1.33404242E+10  2.19041186E+11  1.73979197E+10  2.19040662E+11
 shsum :  1.34054871E+10  2.29883462E+11  1.08422789E+10  2.29882937E+11
 shsum :  1.38574449E+10  2.50829439E+11  2.09459773E+10  2.50828915E+11
 shsum :  1.38574449E+10  2.50829439E+11   51.817776      2.50828915E+11
 shsum :  1.38574449E+10  2.50829439E+11   2.3401313      2.50828915E+11
 fin  2.50829439E+11  1.38574449E+10   18.593161    
   18.100698    
 -4.77600531E+13   18.593161    
 ezero   0.0000000    
  2.50829439E+11
  2.56868925E+14

Total energy input of :2.577E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.508E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.508E+11)
                                           + heating (elhsum =5.265E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3489E+11 [eV/cm2/s]
                                                             or : 3.7635E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          101

 MAIN : Total energy deposition in [CO2] is 1.818E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.609E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.012E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.999E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.051E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.306E+00 [eV.cm-2.s-1] ("shsum").
  1.15971584E+09           2          21
  1.24199539E+09           2          23

 Total Heating :  5.035E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.068E+09      7.078E+07          0.000
              286.72     -2.054E+08      1.621E+08          0.000
              258.24     -3.161E+08      3.823E+08          0.000
              231.88      7.272E+17      9.232E+08          1.000
              207.62            NaN      2.196E+09          1.000
              185.47            NaN      4.889E+09          1.000
              165.43      7.324E+17      9.221E+09          1.000
              147.50      1.374E+08      1.208E+10        -86.924
              131.68      5.856E+07      9.018E+09       -152.994
              117.97      4.194E+06      5.369E+09      -1279.242
              106.37      7.238E+17      1.214E+09          1.000
               96.88      3.053E+03      1.410E+07      -4617.654
               89.49      1.929E+00      1.415E+04      -7333.190
               84.22      1.308E-05      6.410E-02      -4897.598
               81.05      2.119E-13      4.479E-11       -210.425
               80.00      5.295E-25      1.261E-23        -22.818
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5091091E-03
 entot depart   503457.66       503457.66    
 shsum :  1.19941622E+10  1.81775679E+11  1.81775172E+11  1.81775172E+11
 shsum :  1.21270528E+10  1.97863522E+11  1.60878408E+10  1.97863014E+11
 shsum :  1.21885051E+10  2.07985164E+11  1.01216379E+10  2.07984656E+11
 shsum :  1.26228101E+10  2.27976479E+11  1.99913226E+10  2.27975987E+11
 shsum :  1.26228101E+10  2.27976479E+11   50.509468      2.27975987E+11
 shsum :  1.26228101E+10  2.27976479E+11   2.3055749      2.27975987E+11
 fin  2.27976479E+11  1.26228101E+10   18.608746    
   18.060675    
 -5.24314550E+13   18.608746    
 ezero   0.0000000    
  2.27976479E+11
  2.81757069E+14

Total energy input of :2.349E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.280E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.280E+11)
                                           + heating (elhsum =5.035E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1055E+11 [eV/cm2/s]
                                                             or : 3.3734E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.607E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.466E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.324E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.890E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.897E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.264E+00 [eV.cm-2.s-1] ("shsum").
  1.11770419E+09           2          21
  1.19645286E+09           2          23

 Total Heating :  4.765E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.067E+09      6.944E+07          0.000
              286.72     -2.041E+08      1.586E+08          0.000
              258.24     -3.142E+08      3.725E+08          0.000
              231.88      7.272E+17      8.961E+08          1.000
              207.62            NaN      2.121E+09          1.000
              185.47            NaN      4.673E+09          1.000
              165.43      7.324E+17      8.611E+09          1.000
              147.50      1.493E+08      1.074E+10        -70.944
              131.68      5.181E+07      7.706E+09       -147.743
              117.97      3.693E+06      4.482E+09      -1212.442
              106.37      7.238E+17      8.208E+08          1.000
               96.88      1.727E+03      7.181E+06      -4157.113
               89.49      7.000E-01      3.904E+03      -5576.922
               84.22      1.251E-06      4.208E-03      -3362.186
               81.05      4.357E-16      9.352E-14       -213.653
               80.00      7.254E-28      1.702E-26        -22.457
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.2337063E-03
 entot depart   476538.19       476538.19    
 shsum :  1.07092828E+10  1.60651674E+11  1.60651198E+11  1.60651198E+11
 shsum :  1.08317440E+10  1.75312519E+11  1.46608425E+10  1.75312044E+11
 shsum :  1.08891955E+10  1.84637014E+11  9.32448870E+09  1.84636539E+11
 shsum :  1.13031967E+10  2.03535647E+11  1.88986368E+10  2.03535172E+11
 shsum :  1.13031967E+10  2.03535647E+11   48.972618      2.03535172E+11
 shsum :  1.13031967E+10  2.03535647E+11   2.2642336      2.03535172E+11
 fin  2.03535647E+11  1.13031967E+10   18.627056    
   18.006910    
 -5.85526642E+13   18.627056    
 ezero   0.0000000    
  2.03535647E+11
  3.14342013E+14

Total energy input of :2.105E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.035E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.035E+11)
                                           + heating (elhsum =4.765E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.01 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 320.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.8487E+11 [eV/cm2/s]
                                                             or : 2.9620E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 1.386E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.312E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.449E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.765E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.716E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.214E+00 [eV.cm-2.s-1] ("shsum").
  1.06796774E+09           2          21
  1.14274163E+09           2          23

 Total Heating :  4.450E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.067E+09      6.813E+07          0.000
              286.72     -2.032E+08      1.551E+08          0.000
              258.24     -3.130E+08      3.630E+08          0.000
              231.88      7.272E+17      8.689E+08          1.000
              207.62            NaN      2.042E+09          1.000
              185.47            NaN      4.435E+09          1.000
              165.43      7.324E+17      7.911E+09          1.000
              147.50      1.604E+08      9.258E+09        -56.723
              131.68      4.359E+07      6.367E+09       -145.080
              117.97      3.205E+06      3.561E+09      -1110.161
              106.37      7.238E+17      4.874E+08          1.000
               96.88      8.508E+02      3.110E+06      -3654.880
               89.49      1.751E-01      6.870E+02      -3921.682
               84.22      5.144E-08      1.059E-04      -2058.646
               81.05      6.151E-19      1.321E-16       -213.724
               80.00      6.080E-31      6.718E-38          1.000
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  2.9364282E-03
 entot depart   445043.22       445043.22    
 shsum :  9.35855923E+09  1.38557030E+11  1.38556588E+11  1.38556588E+11
 shsum :  9.46976256E+09  1.51679336E+11  1.31222989E+10  1.51678894E+11
 shsum :  9.52280474E+09  1.60128483E+11  8.44914176E+09  1.60128041E+11
 shsum :  9.91348019E+09  1.77779704E+11  1.76512287E+10  1.77779278E+11
 shsum :  9.91348019E+09  1.77779704E+11   47.158043      1.77779278E+11
 shsum :  9.91348019E+09  1.77779704E+11   2.2143755      1.77779278E+11
 fin  1.77779704E+11  9.91348019E+09   18.648315    
   17.933128    
 -6.67608416E+13   18.648315    
 ezero   0.0000000    
  1.77779704E+11
  3.57999349E+14

Total energy input of :1.849E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.778E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.778E+11)
                                           + heating (elhsum =4.450E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.65 eV (from qtoteV)
                                  or :  17.93 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7502E+11 [eV/cm2/s]
                                                             or : 4.4064E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           94

 MAIN : Total energy deposition in [CO2] is 2.169E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.838E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.138E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.162E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.285E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.368E+00 [eV.cm-2.s-1] ("shsum").
  1.22314342E+09           2          21
  1.31112422E+09           2          23

 Total Heating :  5.441E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.071E+09      7.363E+07          0.000
              286.72     -2.091E+08      1.693E+08          0.000
              258.24     -3.206E+08      4.007E+08          0.000
              231.88      7.272E+17      9.705E+08          1.000
              207.62            NaN      2.315E+09          1.000
              185.47            NaN      5.195E+09          1.000
              165.43      7.324E+17      1.006E+10          1.000
              147.50      1.157E+08      1.411E+10       -121.007
              131.68      6.897E+07      1.132E+10       -163.105
              117.97      5.217E+06      6.914E+09      -1324.393
              106.37      7.238E+17      2.034E+09          1.000
               96.88      6.696E+03      3.655E+07      -5457.256
               89.49      6.918E+00      7.252E+04     -10482.357
               84.22      2.458E-04      1.965E+00      -7993.861
               81.05      5.920E-10      3.982E-06      -6726.520
               80.00      7.457E-20      1.734E-18        -22.258
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9511048E-03
 entot depart   544081.31       544081.31    
 shsum :  1.41186642E+10  2.16891097E+11  2.16890556E+11  2.16890556E+11
 shsum :  1.42682931E+10  2.35270308E+11  1.83792067E+10  2.35269767E+11
 shsum :  1.43360195E+10  2.46645621E+11  1.13753201E+10  2.46645080E+11
 shsum :  1.48004168E+10  2.68269584E+11  2.16239636E+10  2.68269044E+11
 shsum :  1.48004168E+10  2.68269584E+11   52.851799      2.68269044E+11
 shsum :  1.48004168E+10  2.68269584E+11   2.3680704      2.68269044E+11
 fin  2.68269584E+11  1.48004168E+10   18.581831    
   18.125813    
 -4.47171401E+13   18.581831    
 ezero   0.0000000    
  2.68269584E+11
  2.40649786E+14

Total energy input of :2.750E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.683E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.683E+11)
                                           + heating (elhsum =5.441E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5061E+11 [eV/cm2/s]
                                                             or : 4.0153E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           90

 MAIN : Total energy deposition in [CO2] is 1.955E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.699E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.062E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.065E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.153E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.333E+00 [eV.cm-2.s-1] ("shsum").
  1.18765862E+09           2          21
  1.27247552E+09           2          23

 Total Heating :  5.208E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.070E+09      7.227E+07          0.000
              286.72     -2.074E+08      1.657E+08          0.000
              258.24     -3.183E+08      3.909E+08          0.000
              231.88      7.272E+17      9.435E+08          1.000
              207.62            NaN      2.242E+09          1.000
              185.47            NaN      4.998E+09          1.000
              165.43      7.324E+17      9.525E+09          1.000
              147.50      1.280E+08      1.288E+10        -99.636
              131.68      6.372E+07      9.937E+09       -154.942
              117.97      4.639E+06      5.994E+09      -1290.919
              106.37      7.238E+17      1.528E+09          1.000
               96.88      4.337E+03      2.133E+07      -4915.849
               89.49      3.443E+00      2.871E+04      -8335.883
               84.22      4.673E-05      2.811E-01      -6013.322
               81.05      3.412E-11      6.853E-09       -199.836
               80.00      1.130E-22      2.659E-21        -22.528
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.6831819E-03
 entot depart   520759.47       520759.47    
 shsum :  1.28257669E+10  1.95503079E+11  1.95502555E+11  1.95502555E+11
 shsum :  1.29652500E+10  2.12494189E+11  1.69911060E+10  2.12493664E+11
 shsum :  1.30291907E+10  2.23113331E+11  1.06191483E+10  2.23112806E+11
 shsum :  1.34755400E+10  2.43758465E+11  2.06451343E+10  2.43757941E+11
 shsum :  1.34755400E+10  2.43758465E+11   51.528549      2.43757941E+11
 shsum :  1.34755400E+10  2.43758465E+11   2.3333972      2.43757941E+11
 fin  2.43758465E+11  1.34755400E+10   18.597742    
   18.088957    
 -4.91136011E+13   18.597742    
 ezero   0.0000000    
  2.43758465E+11
  2.64083647E+14

Total energy input of :2.506E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.438E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.438E+11)
                                           + heating (elhsum =5.208E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.09 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2448E+11 [eV/cm2/s]
                                                             or : 3.5967E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.727E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.548E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.783E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.952E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.997E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.292E+00 [eV.cm-2.s-1] ("shsum").
  1.14582784E+09           2          21
  1.22708275E+09           2          23

 Total Heating :  4.934E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.069E+09      7.090E+07          0.000
              286.72     -2.060E+08      1.620E+08          0.000
              258.24     -3.163E+08      3.809E+08          0.000
              231.88      7.272E+17      9.158E+08          1.000
              207.62            NaN      2.165E+09          1.000
              185.47            NaN      4.782E+09          1.000
              165.43      7.324E+17      8.915E+09          1.000
              147.50      1.415E+08      1.149E+10        -80.206
              131.68      5.683E+07      8.487E+09       -148.346
              117.97      4.047E+06      5.020E+09      -1239.483
              106.37      7.238E+17      1.053E+09          1.000
               96.88      2.475E+03      1.090E+07      -4400.717
               89.49      1.323E+00      8.691E+03      -6566.734
               84.22      5.365E-06      2.261E-02      -4214.364
               81.05      4.965E-14      1.049E-11       -210.192
               80.00      1.245E-25      2.960E-24        -22.770
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3913534E-03
 entot depart   493389.34       493389.34    
 shsum :  1.14447421E+10  1.72737462E+11  1.72736971E+11  1.72736971E+11
 shsum :  1.15731732E+10  1.88215951E+11  1.54784860E+10  1.88215460E+11
 shsum :  1.16329226E+10  1.97998674E+11  9.78272768E+09  1.97998182E+11
 shsum :  1.20585124E+10  2.17522733E+11  1.95240632E+10  2.17522242E+11
 shsum :  1.20585124E+10  2.17522733E+11   49.969582      2.17522242E+11
 shsum :  1.20585124E+10  2.17522733E+11   2.2918277      2.17522242E+11
 fin  2.17522733E+11  1.20585124E+10   18.616291    
   18.038937    
 -5.48850683E+13   18.616291    
 ezero   0.0000000    
  2.17522733E+11
  2.94822796E+14

Total energy input of :2.245E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.175E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.175E+11)
                                           + heating (elhsum =4.934E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.04 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 325.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 1.9691E+11 [eV/cm2/s]
                                                             or : 3.1549E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 1.489E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.385E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 8.863E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.824E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.813E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.242E+00 [eV.cm-2.s-1] ("shsum").
  1.09598515E+09           2          21
  1.17319514E+09           2          23

 Total Heating :  4.613E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.068E+09      6.951E+07          0.000
              286.72     -2.050E+08      1.584E+08          0.000
              258.24     -3.149E+08      3.709E+08          0.000
              231.88      7.272E+17      8.877E+08          1.000
              207.62            NaN      2.085E+09          1.000
              185.47            NaN      4.543E+09          1.000
              165.43      7.324E+17      8.212E+09          1.000
              147.50      1.548E+08      9.938E+09        -63.187
              131.68      4.820E+07      7.006E+09       -144.358
              117.97      3.472E+06      4.012E+09      -1154.572
              106.37      7.238E+17      6.401E+08          1.000
               96.88      1.224E+03      4.761E+06      -3887.631
               89.49      3.604E-01      1.685E+03      -4674.280
               84.22      2.666E-07      7.024E-04      -2633.267
               81.05      5.179E-18      1.112E-15       -213.667
               80.00      5.333E-30      2.047E-30          0.616
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.0764875E-03
 entot depart   461255.31       461255.31    
 shsum :  9.99176909E+09  1.48901528E+11  1.48901069E+11  1.48901069E+11
 shsum :  1.01082767E+10  1.62748613E+11  1.38470779E+10  1.62748154E+11
 shsum :  1.01634058E+10  1.71611881E+11  8.86327091E+09  1.71611423E+11
 shsum :  1.05651067E+10  1.89853680E+11  1.82417961E+10  1.89853221E+11
 shsum :  1.05651067E+10  1.89853680E+11   48.125771      1.89853221E+11
 shsum :  1.05651067E+10  1.89853680E+11   2.2416182      1.89853221E+11
 fin  1.89853680E+11  1.05651067E+10   18.638014    
   17.969877    
 -6.26432179E+13   18.638014    
 ezero   0.0000000    
  1.89853680E+11
  3.36104578E+14

Total energy input of :1.969E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 1.899E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =1.899E+11)
                                           + heating (elhsum =4.613E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.64 eV (from qtoteV)
                                  or :  17.97 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9035E+11 [eV/cm2/s]
                                                             or : 4.6520E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           84

 MAIN : Total energy deposition in [CO2] is 2.304E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.924E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.184E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.220E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.374E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.392E+00 [eV.cm-2.s-1] ("shsum").
  1.24712819E+09           2          21
  1.33742131E+09           2          23

 Total Heating :  5.591E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.073E+09      7.512E+07          0.000
              286.72     -2.113E+08      1.729E+08          0.000
              258.24     -3.230E+08      4.094E+08          0.000
              231.88      7.272E+17      9.901E+08          1.000
              207.62            NaN      2.357E+09          1.000
              185.47            NaN      5.289E+09          1.000
              165.43      7.324E+17      1.031E+10          1.000
              147.50      1.064E+08      1.481E+10       -138.233
              131.68      7.309E+07      1.226E+10       -166.744
              117.97      5.730E+06      7.553E+09      -1317.274
              106.37      7.238E+17      2.397E+09          1.000
               96.88      8.783E+03      5.120E+07      -5828.992
               89.49      1.048E+01      1.233E+05     -11763.642
               84.22      6.266E-04      5.881E+00      -9384.572
               81.05      2.977E-09      2.662E-05      -8941.792
               80.00      1.784E-17      4.116E-16        -22.074
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.1163275E-03
 entot depart   559076.50       559076.50    
 shsum :  1.49332931E+10  2.30394806E+11  2.30394249E+11  2.30394249E+11
 shsum :  1.50891786E+10  2.49631687E+11  1.92368845E+10  2.49631130E+11
 shsum :  1.51592110E+10  2.61468914E+11  1.18372260E+10  2.61468357E+11
 shsum :  1.56341146E+10  2.83667202E+11  2.21983007E+10  2.83666645E+11
 shsum :  1.56341146E+10  2.83667202E+11   53.735771      2.83666645E+11
 shsum :  1.56341146E+10  2.83667202E+11   2.3917954      2.83666645E+11
 fin  2.83667202E+11  1.56341146E+10   18.571503    
   18.144117    
 -4.23325734E+13   18.571503    
 ezero   0.0000000    
  2.83667202E+11
  2.27943729E+14

Total energy input of :2.903E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.837E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.837E+11)
                                           + heating (elhsum =5.591E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6453E+11 [eV/cm2/s]
                                                             or : 4.2382E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           98

 MAIN : Total energy deposition in [CO2] is 2.077E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.778E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.105E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.120E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.240E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.357E+00 [eV.cm-2.s-1] ("shsum").
  1.21185818E+09           2          21
  1.29895462E+09           2          23

 Total Heating :  5.355E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.072E+09      7.374E+07          0.000
              286.72     -2.095E+08      1.692E+08          0.000
              258.24     -3.205E+08      3.993E+08          0.000
              231.88      7.272E+17      9.629E+08          1.000
              207.62            NaN      2.284E+09          1.000
              185.47            NaN      5.092E+09          1.000
              165.43      7.324E+17      9.777E+09          1.000
              147.50      1.194E+08      1.355E+10       -112.427
              131.68      6.796E+07      1.076E+10       -157.394
              117.97      5.065E+06      6.557E+09      -1293.441
              106.37      7.238E+17      1.833E+09          1.000
               96.88      5.799E+03      2.964E+07      -5109.930
               89.49      5.294E+00      5.096E+04      -9624.873
               84.22      1.305E-04      9.290E-01      -7119.936
               81.05      1.910E-10      1.156E-06      -6051.446
               80.00      2.182E-20      5.069E-19        -22.232
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.8356017E-03
 entot depart   535494.81       535494.81    
 shsum :  1.35627100E+10  2.07695446E+11  2.07694905E+11  2.07694905E+11
 shsum :  1.37079654E+10  2.25477214E+11  1.77817702E+10  2.25476674E+11
 shsum :  1.37740626E+10  2.36527862E+11  1.10506537E+10  2.36527321E+11
 shsum :  1.42305915E+10  2.57727349E+11  2.11994911E+10  2.57726808E+11
 shsum :  1.42305915E+10  2.57727349E+11   52.399437      2.57726808E+11
 shsum :  1.42305915E+10  2.57727349E+11   2.3570042      2.57726808E+11
 fin  2.57727349E+11  1.42305915E+10   18.588575    
   18.110796    
 -4.65077136E+13   18.588575    
 ezero   0.0000000    
  2.57727349E+11
  2.50195166E+14

Total energy input of :2.645E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.577E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.577E+11)
                                           + heating (elhsum =5.355E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3683E+11 [eV/cm2/s]
                                                             or : 3.7945E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          103

 MAIN : Total energy deposition in [CO2] is 1.835E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.619E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.018E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.005E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.082E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.315E+00 [eV.cm-2.s-1] ("shsum").
  1.17012416E+09           2          21
  1.25362176E+09           2          23

 Total Heating :  5.078E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.071E+09      7.231E+07          0.000
              286.72     -2.080E+08      1.654E+08          0.000
              258.24     -3.185E+08      3.890E+08          0.000
              231.88      7.272E+17      9.346E+08          1.000
              207.62            NaN      2.207E+09          1.000
              185.47            NaN      4.876E+09          1.000
              165.43      7.324E+17      9.166E+09          1.000
              147.50      1.341E+08      1.212E+10        -89.360
              131.68      6.106E+07      9.193E+09       -149.571
              117.97      4.385E+06      5.505E+09      -1254.358
              106.37      7.238E+17      1.282E+09          1.000
               96.88      3.324E+03      1.537E+07      -4622.852
               89.49      2.178E+00      1.631E+04      -7486.157
               84.22      1.677E-05      8.468E-02      -5048.807
               81.05      3.089E-13      6.521E-11       -210.123
               80.00      7.783E-25      1.852E-23        -22.797
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5293535E-03
 entot depart   507760.00       507760.00    
 shsum :  1.20969052E+10  1.83481418E+11  1.83480910E+11  1.83480910E+11
 shsum :  1.22305628E+10  1.99675871E+11  1.61944463E+10  1.99675363E+11
 shsum :  1.22923018E+10  2.09855922E+11  1.01800520E+10  2.09855414E+11
 shsum :  1.27276872E+10  2.29910659E+11  2.00547389E+10  2.29910151E+11
 shsum :  1.27276872E+10  2.29910659E+11   50.822128      2.29910151E+11
 shsum :  1.27276872E+10  2.29910659E+11   2.3152373      2.29910151E+11
 fin  2.29910659E+11  1.27276872E+10   18.607300    
   18.063820    
 -5.19994165E+13   18.607300    
 ezero   0.0000000    
  2.29910659E+11
  2.79457064E+14

Total energy input of :2.368E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.299E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.299E+11)
                                           + heating (elhsum =5.078E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 330.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.0758E+11 [eV/cm2/s]
                                                             or : 3.3259E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.581E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.448E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.223E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.874E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.895E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.265E+00 [eV.cm-2.s-1] ("shsum").
  1.12016947E+09           2          21
  1.19955507E+09           2          23

 Total Heating :  4.751E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.070E+09      7.084E+07          0.000
              286.72     -2.068E+08      1.616E+08          0.000
              258.24     -3.169E+08      3.785E+08          0.000
              231.88      7.272E+17      9.055E+08          1.000
              207.62            NaN      2.125E+09          1.000
              185.47            NaN      4.636E+09          1.000
              165.43      7.324E+17      8.462E+09          1.000
              147.50      1.493E+08      1.052E+10        -69.478
              131.68      5.218E+07      7.584E+09       -144.342
              117.97      3.726E+06      4.418E+09      -1184.502
              106.37      7.238E+17      7.949E+08          1.000
               96.88      1.653E+03      6.746E+06      -4079.251
               89.49      6.340E-01      3.413E+03      -5382.163
               84.22      9.706E-07      3.111E-03      -3204.717
               81.05      2.978E-16      6.383E-14       -213.339
               80.00      4.980E-28      1.140E-26        -21.890
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.1990521E-03
 entot depart   475104.09       475104.09    
 shsum :  1.05537229E+10  1.58106763E+11  1.58106288E+11  1.58106288E+11
 shsum :  1.06748713E+10  1.72588777E+11  1.44820142E+10  1.72588302E+11
 shsum :  1.07318088E+10  1.81811659E+11  9.22287718E+09  1.81811184E+11
 shsum :  1.11428526E+10  2.00555823E+11  1.87441725E+10  2.00555364E+11
 shsum :  1.11428526E+10  2.00555823E+11   48.952339      2.00555364E+11
 shsum :  1.11428526E+10  2.00555823E+11   2.2647009      2.00555364E+11
 fin  2.00555823E+11  1.11428526E+10   18.629332    
   17.998608    
 -5.93952286E+13   18.629332    
 ezero   0.0000000    
  2.00555823E+11
  3.18826395E+14

Total energy input of :2.076E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.006E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.006E+11)
                                           + heating (elhsum =4.751E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.63 eV (from qtoteV)
                                  or :  18.00 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0353E+11 [eV/cm2/s]
                                                             or : 4.8632E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           95

 MAIN : Total energy deposition in [CO2] is 2.420E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.997E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.223E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.267E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.448E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.412E+00 [eV.cm-2.s-1] ("shsum").
  1.26787776E+09           2          21
  1.36026675E+09           2          23

 Total Heating :  5.717E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.075E+09      7.657E+07          0.000
              286.72     -2.136E+08      1.765E+08          0.000
              258.24     -3.254E+08      4.178E+08          0.000
              231.88      7.272E+17      1.009E+09          1.000
              207.62            NaN      2.397E+09          1.000
              185.47            NaN      5.371E+09          1.000
              165.43      7.324E+17      1.051E+10          1.000
              147.50      9.858E+07      1.538E+10       -155.041
              131.68      7.628E+07      1.307E+10       -170.409
              117.97      6.202E+06      8.114E+09      -1307.239
              106.37      7.238E+17      2.740E+09          1.000
               96.88      1.088E+04      6.721E+07      -6178.645
               89.49      1.450E+01      1.868E+05     -12880.008
               84.22      1.294E-03      1.380E+01     -10662.410
               81.05      1.057E-08      1.070E-04     -10127.716
               80.00      3.619E-15      8.322E-14        -21.996
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2574224E-03
 entot depart   571651.44       571651.44    
 shsum :  1.56347474E+10  2.42035786E+11  2.42035212E+11  2.42035212E+11
 shsum :  1.57959772E+10  2.62004638E+11  1.99688561E+10  2.62004064E+11
 shsum :  1.58679613E+10  2.74232639E+11  1.22279987E+10  2.74232066E+11
 shsum :  1.63515607E+10  2.96907506E+11  2.26748764E+10  2.96906949E+11
 shsum :  1.63515607E+10  2.96907506E+11   54.482048      2.96906949E+11
 shsum :  1.63515607E+10  2.96907506E+11   2.4117157      2.96906949E+11
 fin  2.96907506E+11  1.63515607E+10   18.562819    
   18.157747    
 -4.04751762E+13   18.562819    
 ezero   0.0000000    
  2.96907506E+11
  2.18044333E+14

Total energy input of :3.035E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.969E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.969E+11)
                                           + heating (elhsum =5.717E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7650E+11 [eV/cm2/s]
                                                             or : 4.4301E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           93

 MAIN : Total energy deposition in [CO2] is 2.182E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.846E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.142E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.166E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.313E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.377E+00 [eV.cm-2.s-1] ("shsum").
  1.23277402E+09           2          21
  1.32194970E+09           2          23

 Total Heating :  5.479E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.073E+09      7.516E+07          0.000
              286.72     -2.117E+08      1.727E+08          0.000
              258.24     -3.230E+08      4.075E+08          0.000
              231.88      7.272E+17      9.814E+08          1.000
              207.62            NaN      2.324E+09          1.000
              185.47            NaN      5.175E+09          1.000
              165.43      7.324E+17      9.981E+09          1.000
              147.50      1.121E+08      1.409E+10       -124.693
              131.68      7.133E+07      1.148E+10       -160.013
              117.97      5.456E+06      7.049E+09      -1290.951
              106.37      7.238E+17      2.115E+09          1.000
               96.88      7.150E+03      3.908E+07      -5464.314
               89.49      7.524E+00      7.980E+04     -10604.850
               84.22      2.893E-04      2.356E+00      -8142.128
               81.05      7.672E-10      5.244E-06      -6834.073
               80.00      9.912E-20      2.302E-18        -22.227
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9656907E-03
 entot depart   547863.06       547863.06    
 shsum :  1.41977477E+10  2.18218152E+11  2.18217611E+11  2.18217611E+11
 shsum :  1.43479296E+10  2.36674580E+11  1.84564265E+10  2.36674040E+11
 shsum :  1.44158546E+10  2.48090690E+11  1.14161172E+10  2.48090165E+11
 shsum :  1.48808172E+10  2.69750698E+11  2.16600003E+10  2.69750174E+11
 shsum :  1.48808172E+10  2.69750698E+11   53.134430      2.69750174E+11
 shsum :  1.48808172E+10  2.69750698E+11   2.3768210      2.69750174E+11
 fin  2.69750698E+11  1.48808172E+10   18.580935    
   18.127411    
 -4.44755356E+13   18.580935    
 ezero   0.0000000    
  2.69750698E+11
  2.39361111E+14

Total energy input of :2.765E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.698E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.698E+11)
                                           + heating (elhsum =5.479E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.13 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.4746E+11 [eV/cm2/s]
                                                             or : 3.9648E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 1.928E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.681E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.052E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.050E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.154E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.335E+00 [eV.cm-2.s-1] ("shsum").
  1.19102400E+09           2          21
  1.27653606E+09           2          23

 Total Heating :  5.198E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.072E+09      7.367E+07          0.000
              286.72     -2.100E+08      1.687E+08          0.000
              258.24     -3.207E+08      3.968E+08          0.000
              231.88      7.272E+17      9.525E+08          1.000
              207.62            NaN      2.245E+09          1.000
              185.47            NaN      4.958E+09          1.000
              165.43      7.324E+17      9.371E+09          1.000
              147.50      1.277E+08      1.264E+10        -97.991
              131.68      6.449E+07      9.809E+09       -151.101
              117.97      4.696E+06      5.929E+09      -1261.574
              106.37      7.238E+17      1.497E+09          1.000
               96.88      4.211E+03      2.032E+07      -4825.087
               89.49      3.210E+00      2.667E+04      -8307.810
               84.22      3.918E-05      2.269E-01      -5790.467
               81.05      2.439E-11      4.892E-09       -199.563
               80.00      8.129E-23      1.910E-21        -22.494
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.6471542E-03
 entot depart   519820.94       519820.94    
 shsum :  1.26593106E+10  1.92765002E+11  1.92764477E+11  1.92764477E+11
 shsum :  1.27974287E+10  2.09570578E+11  1.68055736E+10  2.09570054E+11
 shsum :  1.28608512E+10  2.20087091E+11  1.05165107E+10  2.20086567E+11
 shsum :  1.33043517E+10  2.40582836E+11  2.04957409E+10  2.40582312E+11
 shsum :  1.33043517E+10  2.40582836E+11   51.540970      2.40582312E+11
 shsum :  1.33043517E+10  2.40582836E+11   2.3348560      2.40582312E+11
 fin  2.40582836E+11  1.33043517E+10   18.599941    
   18.083019    
 -4.97455485E+13   18.599941    
 ezero   0.0000000    
  2.40582836E+11
  2.67450063E+14

Total energy input of :2.475E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.406E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.406E+11)
                                           + heating (elhsum =5.198E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.60 eV (from qtoteV)
                                  or :  18.08 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 335.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.1678E+11 [eV/cm2/s]
                                                             or : 3.4733E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 1.661E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.502E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.527E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.916E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 4.965E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.284E+00 [eV.cm-2.s-1] ("shsum").
  1.14089075E+09           2          21
  1.22220992E+09           2          23

 Total Heating :  4.867E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.071E+09      7.212E+07          0.000
              286.72     -2.086E+08      1.646E+08          0.000
              258.24     -3.190E+08      3.858E+08          0.000
              231.88      7.272E+17      9.223E+08          1.000
              207.62            NaN      2.161E+09          1.000
              185.47            NaN      4.716E+09          1.000
              165.43      7.324E+17      8.666E+09          1.000
              147.50      1.441E+08      1.100E+10        -75.336
              131.68      5.551E+07      8.091E+09       -144.758
              117.97      3.960E+06      4.772E+09      -1204.143
              106.37      7.238E+17      9.427E+08          1.000
               96.88      2.110E+03      8.948E+06      -4240.151
               89.49      9.838E-01      5.925E+03      -6021.402
               84.22      2.656E-06      9.949E-03      -3744.677
               81.05      1.282E-15      2.747E-13       -213.326
               80.00      2.159E-27      5.175E-26        -22.970
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3036387E-03
 entot depart   486734.75       486734.75    
 shsum :  1.10386606E+10  1.66067798E+11  1.66067306E+11  1.66067306E+11
 shsum :  1.11637699E+10  1.81091959E+11  1.50241659E+10  1.81091467E+11
 shsum :  1.12222362E+10  1.90619386E+11  9.52742502E+09  1.90618894E+11
 shsum :  1.16410245E+10  2.09781490E+11  1.91621038E+10  2.09780998E+11
 shsum :  1.16410245E+10  2.09781490E+11   49.648895      2.09780998E+11
 shsum :  1.16410245E+10  2.09781490E+11   2.2840204      2.09780998E+11
 fin  2.09781490E+11  1.16410245E+10   18.622173    
   18.020878    
 -5.68534384E+13   18.622173    
 ezero   0.0000000    
  2.09781490E+11
  3.05299697E+14

Total energy input of :2.168E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.098E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.098E+11)
                                           + heating (elhsum =4.867E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.02 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.1445E+11 [eV/cm2/s]
                                                             or : 5.0381E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           81

 MAIN : Total energy deposition in [CO2] is 2.517E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.057E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.255E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.306E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.510E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.428E+00 [eV.cm-2.s-1] ("shsum").
  1.28568858E+09           2          21
  1.37995776E+09           2          23

 Total Heating :  5.820E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.076E+09      7.798E+07          0.000
              286.72     -2.158E+08      1.799E+08          0.000
              258.24     -3.279E+08      4.259E+08          0.000
              231.88      7.272E+17      1.027E+09          1.000
              207.62            NaN      2.433E+09          1.000
              185.47            NaN      5.442E+09          1.000
              165.43      7.324E+17      1.067E+10          1.000
              147.50      9.232E+07      1.583E+10       -170.446
              131.68      7.866E+07      1.375E+10       -173.809
              117.97      6.627E+06      8.574E+09      -1292.812
              106.37      7.238E+17      3.037E+09          1.000
               96.88      1.282E+04      8.321E+07      -6490.770
               89.49      1.859E+01      2.567E+05     -13810.093
               84.22      2.249E-03      2.648E+01     -11773.580
               81.05      2.777E-08      3.105E-04     -11182.739
               80.00      3.664E-11      7.932E-10        -20.649
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.3737241E-03
 entot depart   581957.81       581957.81    
 shsum :  1.62164183E+10  2.51696792E+11  2.51696202E+11  2.51696202E+11
 shsum :  1.63820524E+10  2.72268509E+11  2.05717197E+10  2.72267919E+11
 shsum :  1.64556319E+10  2.84815950E+11  1.25474519E+10  2.84815360E+11
 shsum :  1.69462057E+10  3.07873972E+11  2.30580388E+10  3.07873382E+11
 shsum :  1.69462057E+10  3.07873972E+11   55.099380      3.07873382E+11
 shsum :  1.69462057E+10  3.07873972E+11   2.4281263      3.07873382E+11
 fin  3.07873972E+11  1.69462057E+10   18.555729    
   18.167723    
 -3.90548968E+13   18.555729    
 ezero   0.0000000    
  3.07873972E+11
  2.10473513E+14

Total energy input of :3.144E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.079E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.079E+11)
                                           + heating (elhsum =5.820E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.17 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.8642E+11 [eV/cm2/s]
                                                             or : 4.5890E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           86

 MAIN : Total energy deposition in [CO2] is 2.270E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.901E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.172E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.203E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.374E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.393E+00 [eV.cm-2.s-1] ("shsum").
  1.25066752E+09           2          21
  1.34170278E+09           2          23

 Total Heating :  5.580E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.075E+09      7.653E+07          0.000
              286.72     -2.140E+08      1.760E+08          0.000
              258.24     -3.254E+08      4.155E+08          0.000
              231.88      7.272E+17      9.989E+08          1.000
              207.62            NaN      2.360E+09          1.000
              185.47            NaN      5.246E+09          1.000
              165.43      7.324E+17      1.014E+10          1.000
              147.50      1.062E+08      1.452E+10       -135.770
              131.68      7.388E+07      1.208E+10       -162.527
              117.97      5.800E+06      7.464E+09      -1285.977
              106.37      7.238E+17      2.354E+09          1.000
               96.88      8.518E+03      4.860E+07      -5704.979
               89.49      9.844E+00      1.125E+05     -11431.017
               84.22      5.311E-04      4.801E+00      -9040.040
               81.05      2.183E-09      1.878E-05      -8602.747
               80.00      1.240E-17      2.858E-16        -22.041
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.0727230E-03
 entot depart   557998.88       557998.88    
 shsum :  1.47246633E+10  2.26953445E+11  2.26952888E+11  2.26952888E+11
 shsum :  1.48788982E+10  2.45965226E+11  1.90117847E+10  2.45964669E+11
 shsum :  1.49483162E+10  2.57680261E+11  1.17150341E+10  2.57679704E+11
 shsum :  1.54200484E+10  2.79710826E+11  2.20305613E+10  2.79710269E+11
 shsum :  1.54200484E+10  2.79710826E+11   53.741825      2.79710269E+11
 shsum :  1.54200484E+10  2.79710826E+11   2.3931303      2.79710269E+11
 fin  2.79710826E+11  1.54200484E+10   18.574415    
   18.139425    
 -4.29202457E+13   18.574415    
 ezero   0.0000000    
  2.79710826E+11
  2.31071858E+14

Total energy input of :2.864E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.797E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.797E+11)
                                           + heating (elhsum =5.580E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.14 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.5629E+11 [eV/cm2/s]
                                                             or : 4.1062E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.005E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.731E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.079E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.085E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.213E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.351E+00 [eV.cm-2.s-1] ("shsum").
  1.20884966E+09           2          21
  1.29617357E+09           2          23

 Total Heating :  5.297E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.074E+09      7.499E+07          0.000
              286.72     -2.121E+08      1.719E+08          0.000
              258.24     -3.231E+08      4.044E+08          0.000
              231.88      7.272E+17      9.694E+08          1.000
              207.62            NaN      2.280E+09          1.000
              185.47            NaN      5.029E+09          1.000
              165.43      7.324E+17      9.534E+09          1.000
              147.50      1.223E+08      1.305E+10       -105.699
              131.68      6.716E+07      1.032E+10       -152.705
              117.97      4.968E+06      6.285E+09      -1264.215
              106.37      7.238E+17      1.686E+09          1.000
               96.88      5.065E+03      2.535E+07      -5003.204
               89.49      4.250E+00      3.811E+04      -8966.063
               84.22      7.728E-05      5.002E-01      -6471.353
               81.05      8.045E-11      1.613E-08       -199.505
               80.00      2.687E-22      6.312E-21        -22.490
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.7442630E-03
 entot depart   529706.75       529706.75    
 shsum :  1.31265464E+10  2.00489353E+11  2.00488829E+11  2.00488829E+11
 shsum :  1.32683428E+10  2.17798574E+11  1.73092209E+10  2.17798050E+11
 shsum :  1.33331436E+10  2.28590617E+11  1.07920497E+10  2.28590092E+11
 shsum :  1.37831670E+10  2.49441698E+11  2.08510792E+10  2.49441174E+11
 shsum :  1.37831670E+10  2.49441698E+11   52.134438      2.49441174E+11
 shsum :  1.37831670E+10  2.49441698E+11   2.3509824      2.49441174E+11
 fin  2.49441698E+11  1.37831670E+10   18.594097    
   18.097561    
 -4.80174324E+13   18.594097    
 ezero   0.0000000    
  2.49441698E+11
  2.58240210E+14

Total energy input of :2.563E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.494E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.494E+11)
                                           + heating (elhsum =5.297E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.10 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 340.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.2442E+11 [eV/cm2/s]
                                                             or : 3.5956E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           99

 MAIN : Total energy deposition in [CO2] is 1.727E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.547E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.777E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.950E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.022E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.300E+00 [eV.cm-2.s-1] ("shsum").
  1.15844864E+09           2          21
  1.24149056E+09           2          23

 Total Heating :  4.963E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.073E+09      7.335E+07          0.000
              286.72     -2.106E+08      1.676E+08          0.000
              258.24     -3.211E+08      3.929E+08          0.000
              231.88      7.272E+17      9.381E+08          1.000
              207.62            NaN      2.194E+09          1.000
              185.47            NaN      4.785E+09          1.000
              165.43      7.324E+17      8.828E+09          1.000
              147.50      1.397E+08      1.139E+10        -80.508
              131.68      5.815E+07      8.514E+09       -145.414
              117.97      4.163E+06      5.069E+09      -1216.627
              106.37      7.238E+17      1.075E+09          1.000
               96.88      2.556E+03      1.118E+07      -4374.611
               89.49      1.376E+00      9.045E+03      -6570.464
               84.22      5.740E-06      2.425E-02      -4224.216
               81.05      5.442E-14      1.148E-11       -209.852
               80.00      1.374E-25      3.260E-24        -22.737
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.3898302E-03
 entot depart   496261.56       496261.56    
 shsum :  1.14417644E+10  1.72696502E+11  1.72696011E+11  1.72696011E+11
 shsum :  1.15701381E+10  1.88167569E+11  1.54710641E+10  1.88167078E+11
 shsum :  1.16298537E+10  1.97944345E+11  9.77676698E+09  1.97943853E+11
 shsum :  1.20548669E+10  2.17443353E+11  1.94990019E+10  2.17442861E+11
 shsum :  1.20548669E+10  2.17443353E+11   50.222980      2.17442861E+11
 shsum :  1.20548669E+10  2.17443353E+11   2.2998600      2.17442861E+11
 fin  2.17443353E+11  1.20548669E+10   18.616463    
   18.037806    
 -5.49016652E+13   18.616463    
 ezero   0.0000000    
  2.17443353E+11
  2.94909232E+14

Total energy input of :2.244E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.174E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.174E+11)
                                           + heating (elhsum =4.963E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.62 eV (from qtoteV)
                                  or :  18.04 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2304E+11 [eV/cm2/s]
                                                             or : 5.1757E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          107

 MAIN : Total energy deposition in [CO2] is 2.593E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.104E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.280E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.335E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.559E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.441E+00 [eV.cm-2.s-1] ("shsum").
  1.30078387E+09           2          21
  1.39672461E+09           2          23

 Total Heating :  5.901E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.078E+09      7.933E+07          0.000
              286.72     -2.181E+08      1.832E+08          0.000
              258.24     -3.303E+08      4.337E+08          0.000
              231.88      7.272E+17      1.044E+09          1.000
              207.62            NaN      2.467E+09          1.000
              185.47            NaN      5.502E+09          1.000
              165.43      7.324E+17      1.080E+10          1.000
              147.50      8.763E+07      1.616E+10       -183.356
              131.68      8.034E+07      1.428E+10       -176.701
              117.97      7.035E+06      8.937E+09      -1269.431
              106.37      7.238E+17      3.278E+09          1.000
               96.88      1.447E+04      9.768E+07      -6749.207
               89.49      2.234E+01      3.249E+05     -14542.655
               84.22      3.378E-03      4.285E+01     -12686.714
               81.05      5.653E-08      6.812E-04     -12050.314
               80.00      1.713E-10      1.178E-07       -686.937
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.4648633E-03
 entot depart   590112.31       590112.31    
 shsum :  1.66739702E+10  2.59310060E+11  2.59309470E+11  2.59309470E+11
 shsum :  1.68430551E+10  2.80353505E+11  2.10434437E+10  2.80352915E+11
 shsum :  1.69178767E+10  2.93149508E+11  1.27959890E+10  2.93148918E+11
 shsum :  1.74137795E+10  3.16500935E+11  2.33514189E+10  3.16500345E+11
 shsum :  1.74137795E+10  3.16500935E+11   55.594498      3.16500345E+11
 shsum :  1.74137795E+10  3.16500935E+11   2.4412653      3.16500345E+11
 fin  3.16500935E+11  1.74137795E+10   18.550755    
   18.175316    
 -3.80062411E+13   18.550755    
 ezero   0.0000000    
  3.16500935E+11
  2.04877054E+14

Total energy input of :3.230E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.165E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.165E+11)
                                           + heating (elhsum =5.901E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9420E+11 [eV/cm2/s]
                                                             or : 4.7136E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           83

 MAIN : Total energy deposition in [CO2] is 2.338E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.945E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.195E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.231E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.423E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.406E+00 [eV.cm-2.s-1] ("shsum").
  1.26573670E+09           2          21
  1.35841805E+09           2          23

 Total Heating :  5.660E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.077E+09      7.785E+07          0.000
              286.72     -2.162E+08      1.793E+08          0.000
              258.24     -3.279E+08      4.231E+08          0.000
              231.88      7.272E+17      1.016E+09          1.000
              207.62            NaN      2.393E+09          1.000
              185.47            NaN      5.307E+09          1.000
              165.43      7.324E+17      1.027E+10          1.000
              147.50      1.017E+08      1.484E+10       -144.942
              131.68      7.571E+07      1.255E+10       -164.745
              117.97      6.081E+06      7.794E+09      -1280.796
              106.37      7.238E+17      2.546E+09          1.000
               96.88      9.697E+03      5.727E+07      -5905.163
               89.49      1.200E+01      1.451E+05     -12086.051
               84.22      8.304E-04      8.117E+00      -9773.729
               81.05      4.778E-09      4.435E-05      -9279.743
               80.00      1.356E-15      3.113E-14        -21.964
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.1562864E-03
 entot depart   566008.31       566008.31    
 shsum :  1.51385590E+10  2.33812181E+11  2.33811608E+11  2.33811608E+11
 shsum :  1.52959580E+10  2.53257941E+11  1.94457539E+10  2.53257368E+11
 shsum :  1.53665321E+10  2.65204777E+11  1.19468411E+10  2.65204204E+11
 shsum :  1.58434324E+10  2.87519015E+11  2.23142543E+10  2.87518458E+11
 shsum :  1.58434324E+10  2.87519015E+11   54.228069      2.87518458E+11
 shsum :  1.58434324E+10  2.87519015E+11   2.4061439      2.87518458E+11
 fin  2.87519015E+11  1.58434324E+10   18.568909    
   18.147520    
 -4.17732881E+13   18.568909    
 ezero   0.0000000    
  2.87519015E+11
  2.24963626E+14

Total energy input of :2.942E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.875E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.875E+11)
                                           + heating (elhsum =5.660E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6323E+11 [eV/cm2/s]
                                                             or : 4.2174E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           79

 MAIN : Total energy deposition in [CO2] is 2.066E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.770E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.101E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.112E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.261E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.364E+00 [eV.cm-2.s-1] ("shsum").
  1.22378086E+09           2          21
  1.31270016E+09           2          23

 Total Heating :  5.375E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.075E+09      7.625E+07          0.000
              286.72     -2.143E+08      1.750E+08          0.000
              258.24     -3.255E+08      4.117E+08          0.000
              231.88      7.272E+17      9.852E+08          1.000
              207.62            NaN      2.312E+09          1.000
              185.47            NaN      5.089E+09          1.000
              165.43      7.324E+17      9.658E+09          1.000
              147.50      1.181E+08      1.335E+10       -112.050
              131.68      6.911E+07      1.072E+10       -154.190
              117.97      5.190E+06      6.568E+09      -1264.556
              106.37      7.238E+17      1.842E+09          1.000
               96.88      5.850E+03      2.959E+07      -5058.008
               89.49      5.289E+00      5.038E+04      -9523.709
               84.22      1.274E-04      8.961E-01      -7032.749
               81.05      1.792E-10      1.072E-06      -5978.689
               80.00      2.042E-20      4.736E-19        -22.196
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.8202354E-03
 entot depart   537509.63       537509.63    
 shsum :  1.34941932E+10  2.06574043E+11  2.06573502E+11  2.06573502E+11
 shsum :  1.36388659E+10  2.24277152E+11  1.77031045E+10  2.24276611E+11
 shsum :  1.37047388E+10  2.35283562E+11  1.10064056E+10  2.35283022E+11
 shsum :  1.41597501E+10  2.56407077E+11  2.11235185E+10  2.56406536E+11
 shsum :  1.41597501E+10  2.56407077E+11   52.608154      2.56406536E+11
 shsum :  1.41597501E+10  2.56407077E+11   2.3638163      2.56406536E+11
 fin  2.56407077E+11  1.41597501E+10   18.589666    
   18.108164    
 -4.67403926E+13   18.589666    
 ezero   0.0000000    
  2.56407077E+11
  2.51432117E+14

Total energy input of :2.632E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.564E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.564E+11)
                                           + heating (elhsum =5.375E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.11 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 345.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3043E+11 [eV/cm2/s]
                                                             or : 3.6919E-01 [erg/cm2/s]
 That variable "errorgaupin" is:          104

 MAIN : Total energy deposition in [CO2] is 1.779E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.582E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 9.971E+09 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.976E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.068E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.312E+00 [eV.cm-2.s-1] ("shsum").
  1.17305024E+09           2          21
  1.25760627E+09           2          23

 Total Heating :  5.038E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.074E+09      7.452E+07          0.000
              286.72     -2.125E+08      1.705E+08          0.000
              258.24     -3.233E+08      3.996E+08          0.000
              231.88      7.272E+17      9.530E+08          1.000
              207.62            NaN      2.225E+09          1.000
              185.47            NaN      4.843E+09          1.000
              165.43      7.324E+17      8.951E+09          1.000
              147.50      1.361E+08      1.167E+10        -84.745
              131.68      6.012E+07      8.847E+09       -146.147
              117.97      4.329E+06      5.305E+09      -1224.460
              106.37      7.238E+17      1.185E+09          1.000
               96.88      2.953E+03      1.324E+07      -4482.287
               89.49      1.762E+00      1.236E+04      -7012.719
               84.22      1.013E-05      4.684E-02      -4622.310
               81.05      1.356E-13      2.858E-11       -209.821
               80.00      3.433E-25      8.151E-24        -22.747
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.4572503E-03
 entot depart   503769.94       503769.94    
 shsum :  1.17591204E+10  1.77921835E+11  1.77921327E+11  1.77921327E+11
 shsum :  1.18900470E+10  1.93742471E+11  1.58206392E+10  1.93741963E+11
 shsum :  1.19507354E+10  2.03713266E+11  9.97079245E+09  2.03712758E+11
 shsum :  1.23805133E+10  2.23470862E+11  1.97576008E+10  2.23470354E+11
 shsum :  1.23805133E+10  2.23470862E+11   50.679813      2.23470354E+11
 shsum :  1.23805133E+10  2.23470862E+11   2.3124194      2.23470354E+11
 fin  2.23470862E+11  1.23805133E+10   18.612133    
   18.050209    
 -5.34575789E+13   18.612133    
 ezero   0.0000000    
  2.23470862E+11
  2.87218959E+14

Total energy input of :2.304E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.235E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.235E+11)
                                           + heating (elhsum =5.038E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.05 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.2921E+11 [eV/cm2/s]
                                                             or : 5.2745E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           96

 MAIN : Total energy deposition in [CO2] is 2.648E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.138E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.297E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.356E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.597E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.451E+00 [eV.cm-2.s-1] ("shsum").
  1.31327539E+09           2          21
  1.41067904E+09           2          23

 Total Heating :  5.962E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.080E+09      8.063E+07          0.000
              286.72     -2.203E+08      1.864E+08          0.000
              258.24     -3.328E+08      4.411E+08          0.000
              231.88      7.272E+17      1.059E+09          1.000
              207.62            NaN      2.497E+09          1.000
              185.47            NaN      5.553E+09          1.000
              165.43      7.324E+17      1.088E+10          1.000
              147.50      8.444E+07      1.637E+10       -192.888
              131.68      8.139E+07      1.465E+10       -178.952
              117.97      7.199E+06      9.210E+09      -1278.346
              106.37      7.238E+17      3.455E+09          1.000
               96.88      1.572E+04      1.091E+08      -6941.498
               89.49      2.534E+01      3.819E+05     -15068.674
               84.22      4.461E-03      5.961E+01     -13360.839
               81.05      9.209E-08      1.168E-03     -12686.482
               80.00      3.279E-10      2.271E-07       -691.566
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.5301840E-03
 entot depart   596192.75       596192.75    
 shsum :  1.70026312E+10  2.64780726E+11  2.64780136E+11  2.64780136E+11
 shsum :  1.71741901E+10  2.86162026E+11  2.13813002E+10  2.86161437E+11
 shsum :  1.72498985E+10  2.99135074E+11  1.29730355E+10  2.99134484E+11
 shsum :  1.77495327E+10  3.22692514E+11  2.35574477E+10  3.22691924E+11
 shsum :  1.77495327E+10  3.22692514E+11   55.971584      3.22691924E+11
 shsum :  1.77495327E+10  3.22692514E+11   2.4512672      3.22691924E+11
 fin  3.22692514E+11  1.77495327E+10   18.547262    
   18.180338    
 -3.72873080E+13   18.547262    
 ezero   0.0000000    
  3.22692514E+11
  2.01039433E+14

Total energy input of :3.292E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.227E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.227E+11)
                                           + heating (elhsum =5.962E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.9979E+11 [eV/cm2/s]
                                                             or : 4.8033E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           91

 MAIN : Total energy deposition in [CO2] is 2.388E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.976E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.211E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.251E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.460E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.416E+00 [eV.cm-2.s-1] ("shsum").
  1.27814285E+09           2          21
  1.37225792E+09           2          23

 Total Heating :  5.720E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.078E+09      7.912E+07          0.000
              286.72     -2.183E+08      1.824E+08          0.000
              258.24     -3.303E+08      4.303E+08          0.000
              231.88      7.272E+17      1.031E+09          1.000
              207.62            NaN      2.423E+09          1.000
              185.47            NaN      5.358E+09          1.000
              165.43      7.324E+17      1.035E+10          1.000
              147.50      9.861E+07      1.506E+10       -151.679
              131.68      7.689E+07      1.288E+10       -166.482
              117.97      6.288E+06      8.034E+09      -1276.695
              106.37      7.238E+17      2.693E+09          1.000
               96.88      1.060E+04      6.418E+07      -6055.983
               89.49      1.375E+01      1.727E+05     -12560.212
               84.22      1.128E-03      1.164E+01     -10318.090
               81.05      8.168E-09      8.000E-05      -9793.383
               80.00      2.617E-15      6.009E-14        -21.960
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2163478E-03
 entot depart   571969.13       571969.13    
 shsum :  1.54365153E+10  2.38755463E+11  2.38754890E+11  2.38754890E+11
 shsum :  1.55961897E+10  2.58512634E+11  1.97571748E+10  2.58512060E+11
 shsum :  1.56675901E+10  2.70624834E+11  1.21121987E+10  2.70624260E+11
 shsum :  1.61481155E+10  2.93138661E+11  2.25138299E+10  2.93138104E+11
 shsum :  1.61481155E+10  2.93138661E+11   54.597408      2.93138104E+11
 shsum :  1.61481155E+10  2.93138661E+11   2.4160275      2.93138104E+11
 fin  2.93138661E+11  1.61481155E+10   18.565239    
   18.153118    
 -4.09851113E+13   18.565239    
 ezero   0.0000000    
  2.93138661E+11
  2.20762628E+14

Total energy input of :2.998E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.931E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.931E+11)
                                           + heating (elhsum =5.720E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.57 eV (from qtoteV)
                                  or :  18.15 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.6822E+11 [eV/cm2/s]
                                                             or : 4.2974E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.110E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.799E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.116E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.132E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.297E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.374E+00 [eV.cm-2.s-1] ("shsum").
  1.23594432E+09           2          21
  1.32624307E+09           2          23

 Total Heating :  5.433E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.077E+09      7.745E+07          0.000
              286.72     -2.164E+08      1.779E+08          0.000
              258.24     -3.278E+08      4.186E+08          0.000
              231.88      7.272E+17      1.000E+09          1.000
              207.62            NaN      2.341E+09          1.000
              185.47            NaN      5.138E+09          1.000
              165.43      7.324E+17      9.745E+09          1.000
              147.50      1.152E+08      1.356E+10       -116.667
              131.68      7.038E+07      1.101E+10       -155.415
              117.97      5.354E+06      6.773E+09      -1263.946
              106.37      7.238E+17      1.957E+09          1.000
               96.88      6.330E+03      3.323E+07      -5249.182
               89.49      6.143E+00      6.100E+04      -9928.611
               84.22      1.795E-04      1.337E+00      -7449.318
               81.05      3.266E-10      2.058E-06      -6299.841
               80.00      3.923E-20      9.098E-19        -22.193
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.8747694E-03
 entot depart   543295.31       543295.31    
 shsum :  1.37588511E+10  2.10957189E+11  2.10956648E+11  2.10956648E+11
 shsum :  1.39055892E+10  2.28942905E+11  1.79857121E+10  2.28942365E+11
 shsum :  1.39722260E+10  2.40101982E+11  1.11590738E+10  2.40101442E+11
 shsum :  1.44307333E+10  2.61417124E+11  2.13151396E+10  2.61416583E+11
 shsum :  1.44307333E+10  2.61417124E+11   52.966293      2.61416583E+11
 shsum :  1.44307333E+10  2.61417124E+11   2.3735025      2.61416583E+11
 fin  2.61417124E+11  1.44307333E+10   18.586576    
   18.115305    
 -4.58626926E+13   18.586576    
 ezero   0.0000000    
  2.61417124E+11
  2.46751693E+14

Total energy input of :2.682E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.614E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.614E+11)
                                           + heating (elhsum =5.433E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.59 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 350.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3475E+11 [eV/cm2/s]
                                                             or : 3.7612E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           89

 MAIN : Total energy deposition in [CO2] is 1.817E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.607E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.011E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 1.994E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.102E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.322E+00 [eV.cm-2.s-1] ("shsum").
  1.18480627E+09           2          21
  1.27065843E+09           2          23

 Total Heating :  5.093E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.076E+09      7.563E+07          0.000
              286.72     -2.145E+08      1.732E+08          0.000
              258.24     -3.255E+08      4.060E+08          0.000
              231.88      7.272E+17      9.667E+08          1.000
              207.62            NaN      2.251E+09          1.000
              185.47            NaN      4.890E+09          1.000
              165.43      7.324E+17      9.037E+09          1.000
              147.50      1.336E+08      1.187E+10        -87.819
              131.68      6.145E+07      9.083E+09       -146.823
              117.97      4.452E+06      5.476E+09      -1229.071
              106.37      7.238E+17      1.267E+09          1.000
               96.88      3.262E+03      1.489E+07      -4562.467
               89.49      2.087E+00      1.531E+04      -7337.352
               84.22      1.497E-05      7.363E-02      -4918.911
               81.05      2.539E-13      5.352E-11       -209.783
               80.00      6.445E-25      1.531E-23        -22.756
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5056032E-03
 entot depart   509314.44       509314.44    
 shsum :  1.19877048E+10  1.81688730E+11  1.81688222E+11  1.81688222E+11
 shsum :  1.21204623E+10  1.97760025E+11  1.60712919E+10  1.97759517E+11
 shsum :  1.21818450E+10  2.07869297E+11  1.01092751E+10  2.07868789E+11
 shsum :  1.26149673E+10  2.27808985E+11  1.99396864E+10  2.27808477E+11
 shsum :  1.26149673E+10  2.27808985E+11   51.022896      2.27808477E+11
 shsum :  1.26149673E+10  2.27808985E+11   2.3218317      2.27808477E+11
 fin  2.27808985E+11  1.26149673E+10   18.609123    
   18.058626    
 -5.24640489E+13   18.609123    
 ezero   0.0000000    
  2.27808985E+11
  2.81926519E+14

Total energy input of :2.348E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.278E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.278E+11)
                                           + heating (elhsum =5.093E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  45.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.3290E+11 [eV/cm2/s]
                                                             or : 5.3337E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           87

 MAIN : Total energy deposition in [CO2] is 2.681E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 2.158E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.308E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.368E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.623E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.458E+00 [eV.cm-2.s-1] ("shsum").
  1.32321882E+09           2          21
  1.42187469E+09           2          23

 Total Heating :  6.002E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.081E+09      8.186E+07          0.000
              286.72     -2.225E+08      1.894E+08          0.000
              258.24     -3.352E+08      4.480E+08          0.000
              231.88      7.272E+17      1.074E+09          1.000
              207.62            NaN      2.524E+09          1.000
              185.47            NaN      5.594E+09          1.000
              165.43      7.324E+17      1.094E+10          1.000
              147.50      8.279E+07      1.648E+10       -198.076
              131.68      8.187E+07      1.486E+10       -180.448
              117.97      7.342E+06      9.376E+09      -1275.995
              106.37      7.238E+17      3.564E+09          1.000
               96.88      1.648E+04      1.164E+08      -7060.878
               89.49      2.726E+01      4.193E+05     -15383.897
               84.22      5.244E-03      7.223E+01     -13773.176
               81.05      1.223E-07      1.600E-03     -13079.931
               80.00      4.790E-10      3.331E-07       -694.312
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.5689307E-03
 entot depart   600244.19       600244.19    
 shsum :  1.71995628E+10  2.68060934E+11  2.68060328E+11  2.68060328E+11
 shsum :  1.73725880E+10  2.89642643E+11  2.15817093E+10  2.89642054E+11
 shsum :  1.74488248E+10  3.02721270E+11  1.30786202E+10  3.02720680E+11
 shsum :  1.79505951E+10  3.26397788E+11  2.36765020E+10  3.26397198E+11
 shsum :  1.79505951E+10  3.26397788E+11   56.233238      3.26397198E+11
 shsum :  1.79505951E+10  3.26397788E+11   2.4582143      3.26397198E+11
 fin  3.26397788E+11  1.79505951E+10   18.545219    
   18.183119    
 -3.68696560E+13   18.545219    
 ezero   0.0000000    
  3.26397788E+11
  1.98809506E+14

Total energy input of :3.329E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 3.264E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =3.264E+11)
                                           + heating (elhsum =6.002E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.55 eV (from qtoteV)
                                  or :  18.18 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  50.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 3.0317E+11 [eV/cm2/s]
                                                             or : 4.8575E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           88

 MAIN : Total energy deposition in [CO2] is 2.417E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.994E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.221E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.263E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.485E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.423E+00 [eV.cm-2.s-1] ("shsum").
  1.28791526E+09           2          21
  1.38324877E+09           2          23

 Total Heating :  5.759E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.080E+09      8.031E+07          0.000
              286.72     -2.205E+08      1.853E+08          0.000
              258.24     -3.327E+08      4.371E+08          0.000
              231.88      7.272E+17      1.045E+09          1.000
              207.62            NaN      2.450E+09          1.000
              185.47            NaN      5.398E+09          1.000
              165.43      7.324E+17      1.041E+10          1.000
              147.50      9.692E+07      1.516E+10       -155.465
              131.68      7.747E+07      1.306E+10       -167.637
              117.97      6.416E+06      8.179E+09      -1273.847
              106.37      7.238E+17      2.783E+09          1.000
               96.88      1.115E+04      6.857E+07      -6150.168
               89.49      1.486E+01      1.910E+05     -12848.093
               84.22      1.347E-03      1.435E+01     -10652.864
               81.05      1.116E-08      1.129E-04     -10111.073
               80.00      3.846E-15      8.830E-14        -21.960
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  4.2526331E-03
 entot depart   575925.00       575925.00    
 shsum :  1.56161434E+10  2.41743086E+11  2.41742512E+11  2.41742512E+11
 shsum :  1.57771909E+10  2.61687869E+11  1.99447880E+10  2.61687296E+11
 shsum :  1.58490870E+10  2.73898914E+11  1.22110495E+10  2.73898340E+11
 shsum :  1.63317248E+10  2.96529723E+11  2.26308137E+10  2.96529166E+11
 shsum :  1.63317248E+10  2.96529723E+11   54.852001      2.96529166E+11
 shsum :  1.63317248E+10  2.96529723E+11   2.4228563      2.96529166E+11
 fin  2.96529723E+11  1.63317248E+10   18.563509    
   18.156670    
 -4.05243334E+13   18.563509    
 ezero   0.0000000    
  2.96529723E+11
  2.18301041E+14

Total energy input of :3.032E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.965E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.965E+11)
                                           + heating (elhsum =5.759E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.56 eV (from qtoteV)
                                  or :  18.16 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  55.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.7122E+11 [eV/cm2/s]
                                                             or : 4.3455E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           80

 MAIN : Total energy deposition in [CO2] is 2.136E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.816E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.125E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.143E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.321E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.380E+00 [eV.cm-2.s-1] ("shsum").
  1.24540902E+09           2          21
  1.33686899E+09           2          23

 Total Heating :  5.471E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.078E+09      7.858E+07          0.000
              286.72     -2.184E+08      1.807E+08          0.000
              258.24     -3.301E+08      4.250E+08          0.000
              231.88      7.272E+17      1.014E+09          1.000
              207.62            NaN      2.367E+09          1.000
              185.47            NaN      5.177E+09          1.000
              165.43      7.324E+17      9.797E+09          1.000
              147.50      1.136E+08      1.366E+10       -119.273
              131.68      7.103E+07      1.117E+10       -156.258
              117.97      5.454E+06      6.897E+09      -1263.571
              106.37      7.238E+17      2.028E+09          1.000
               96.88      6.684E+03      3.556E+07      -5318.734
               89.49      6.697E+00      6.814E+04     -10173.868
               84.22      2.190E-04      1.688E+00      -7707.518
               81.05      4.636E-10      3.012E-06      -6496.132
               80.00      5.747E-20      1.333E-18        -22.193
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.9076144E-03
 entot depart   547106.94       547106.94    
 shsum :  1.39181773E+10  2.13597618E+11  2.13597078E+11  2.13597078E+11
 shsum :  1.40661596E+10  2.31753351E+11  1.81557371E+10  2.31752810E+11
 shsum :  1.41332521E+10  2.43003425E+11  1.12500716E+10  2.43002884E+11
 shsum :  1.45937981E+10  2.64430911E+11  2.14274949E+10  2.64430387E+11
 shsum :  1.45937981E+10  2.64430911E+11   53.211151      2.64430387E+11
 shsum :  1.45937981E+10  2.64430911E+11   2.3801329      2.64430387E+11
 fin  2.64430911E+11  1.45937981E+10   18.584848    
   18.119404    
 -4.53502409E+13   18.584848    
 ezero   0.0000000    
  2.64430911E+11
  2.44017258E+14

Total energy input of :2.712E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.644E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.644E+11)
                                           + heating (elhsum =5.471E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.58 eV (from qtoteV)
                                  or :  18.12 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))
 OUTPUT FILE FOR TRANS.F
 Latitude  60.0, longitude 355.0.

 REED : The energy degradation is computed from the center energies of the grid.
 REED : The energy degradation source term is interpolated linearly with tau.
 REED : The albedo at  80. km is set to 1.00
 REED : The low energy phase function is taken from Porter
 REED : Secondary distribution from Rees et al., PSS 17, 1997, 1969           
 REED : Wiscombe's delta-M method IS applied

 MAIN : The screening parameter for the Rutherford phase function is calculated
        from the Bethe/Moliere formula for E > 500 eV

 MAIN : The energy grid covers the range from : 0.001 [eV] up to :   287.9 [eV].

 MAIN : The total energy input from the precipitation source is : 0.0000E+00 [eV/cm2/s]
                                                             or : 0.0000E+00 [erg/cm2/s]
                                  and from photoelectron source : 2.3736E+11 [eV/cm2/s]
                                                             or : 3.8030E-01 [erg/cm2/s]
 That variable "errorgaupin" is:           78

 MAIN : Total energy deposition in [CO2] is 1.840E+11 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [N2]  is 1.622E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [CO]  is 1.019E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O]   is 2.005E+10 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O2]  is 5.125E+01 [eV.cm-2.s-1] ("shsum").

 MAIN : Total energy deposition in [O+]  is 2.328E+00 [eV.cm-2.s-1] ("shsum").
  1.19378931E+09           2          21
  1.28071846E+09           2          23

 Total Heating :  5.129E+05 eV cm-2 sec-1

 IPRT(2) OUTPUT START
               Total Energy Deposition per layer (eV cm-2 sec-1)
             Altitude   E-flux diff.         E-dep.     rel. diff.

              350.00      0.000E+00      0.000E+00          0.000
              317.30     -9.077E+09      7.667E+07          0.000
              286.72     -2.164E+08      1.757E+08          0.000
              258.24     -3.277E+08      4.119E+08          0.000
              231.88      7.272E+17      9.792E+08          1.000
              207.62            NaN      2.275E+09          1.000
              185.47            NaN      4.926E+09          1.000
              165.43      7.324E+17      9.087E+09          1.000
              147.50      1.321E+08      1.197E+10        -89.604
              131.68      6.214E+07      9.218E+09       -147.353
              117.97      4.527E+06      5.579E+09      -1231.426
              106.37      7.238E+17      1.317E+09          1.000
               96.88      3.456E+03      1.594E+07      -4611.905
               89.49      2.301E+00      1.734E+04      -7534.896
               84.22      1.878E-05      9.584E-02      -5101.685
               81.05      3.663E-13      7.720E-11       -209.744
               80.00      9.313E-25      2.213E-23        -22.766
 IPRT(2) OUTPUT END
  
Total N I (1200 A to 1744 A) (kR.A):  3.5346793E-03
 entot depart   512932.59       512932.59    
 shsum :  1.21253796E+10  1.83958520E+11  1.83958012E+11  1.83958012E+11
 shsum :  1.22592389E+10  2.00180433E+11  1.62219100E+10  2.00179925E+11
 shsum :  1.23210363E+10  2.10372493E+11  1.01920655E+10  2.10371985E+11
 shsum :  1.27561114E+10  2.30419087E+11  2.00465981E+10  2.30418579E+11
 shsum :  1.27561114E+10  2.30419087E+11   51.254517      2.30418579E+11
 shsum :  1.27561114E+10  2.30419087E+11   2.3281860      2.30418579E+11
 fin  2.30419087E+11  1.27561114E+10   18.607399    
   18.063427    
 -5.18835447E+13   18.607399    
 ezero   0.0000000    
  2.30419087E+11
  2.78832867E+14

Total energy input of :2.374E+11 eV.cm-2.s-1 (qtoteV)
             of which 6.618E+23 is reflected (qsump)
                  and 2.304E+11 is absorbed (entot) 
                         through inelastic collisions (shsum =2.304E+11)
                                           + heating (elhsum =5.129E+05)
 This refers to an energy gain of******* %


 The average E. loss per ion pair is :  18.61 eV (from qtoteV)
                                  or :  18.06 eV (from (entot))
                                  or :******* eV (from (qtoteV-qsump))