chv6_ic#ca13.dat

Resolved Specific Ion Data Collections

Ion
Ca13+
Temperature Range
8.444 eV → 8444 eV

ADF04

Filename
chv6_ic#ca13.dat
Full Path
adf04/copch#20/chv6_ic#ca13.dat
Download data
  • Spontaneous Emission: Ca+13(i) → Ca+13(j) + hv
  • Electron Impact Excitation: Ca+13(i) + e → Ca+13(j) + e
2s2.2p3 4s3/2 4S1.5 0.0 cm-1
2s2.2p3 2d3/2 2D1.5 110948.0 cm-1
2s2.2p3 2d5/2 2D2.5 118992.0 cm-1
2s2.2p3 2p1/2 2P0.5 176969.0 cm-1
2s2.2p3 2p3/2 2P1.5 188288.0 cm-1
2s.2p4 4p5/2 4P2.5 521094.0 cm-1
2s.2p4 4p3/2 4P1.5 541642.0 cm-1
2s.2p4 4p1/2 4P0.5 551083.0 cm-1
2s.2p4 2d3/2 2D1.5 724962.0 cm-1
2s.2p4 2d5/2 2D2.5 727026.0 cm-1
2s.2p4 2s1/2 2S0.5 840461.0 cm-1
2s.2p4 2p3/2 2P1.5 876284.0 cm-1
2s.2p4 2p1/2 2P0.5 904253.0 cm-1
2p5 2p3/2 2P1.5 1375290.0 cm-1
2p5 2p1/2 2P0.5 1408390.0 cm-1
2s2.2p2(3p).3s 4p1/2 4P0.5 3763830.0 cm-1
2s2.2p2(3p).3s 4p3/2 4P1.5 3778920.0 cm-1
2s2.2p2(3p).3s 4p5/2 4P2.5 3796350.0 cm-1
2s2.2p2(3p).3s 2p1/2 2P0.5 3806610.0 cm-1
2s2.2p2(3p).3s 2p3/2 2P1.5 3826670.0 cm-1
2s2.2p2(1d).3s 2d5/2 2D2.5 3880760.0 cm-1
2s2.2p2(1d).3s 2d3/2 2D1.5 3882500.0 cm-1
2s2.2p2(3p).3p 2s1/2 2S0.5 3904050.0 cm-1
2s2.2p2(3p).3p 4d1/2 4D0.5 3915430.0 cm-1
2s2.2p2(3p).3p 4d3/2 4D1.5 3918610.0 cm-1
2s2.2p2(3p).3p 4d5/2 4D2.5 3932490.0 cm-1
2s2.2p2(3p).3p 4p3/2 4P1.5 3939000.0 cm-1
2s2.2p2(3p).3p 4p1/2 4P0.5 3940220.0 cm-1
2s2.2p2(3p).3p 4d7/2 4D3.5 3948800.0 cm-1
2s2.2p2(3p).3p 4p5/2 4P2.5 3949720.0 cm-1
2s2.2p2(3p).3p 2d3/2 2D1.5 3957740.0 cm-1
2s2.2p2(1s).3s 2s1/2 2S0.5 3964450.0 cm-1
2s2.2p2(3p).3p 4s3/2 4S1.5 3974310.0 cm-1
2s2.2p2(3p).3p 2d5/2 2D2.5 3981240.0 cm-1
2s2.2p2(3p).3p 2p3/2 2P1.5 3990440.0 cm-1
2s2.2p2(3p).3p 2p1/2 2P0.5 3992940.0 cm-1
2s.2p3(5s).3s 6s5/2 6S2.5 4028730.0 cm-1
2s2.2p2(1d).3p 2f5/2 2F2.5 4033330.0 cm-1
2s2.2p2(1d).3p 2f7/2 2F3.5 4039270.0 cm-1
2s2.2p2(1d).3p 2d3/2 2D1.5 4064380.0 cm-1
2s2.2p2(1d).3p 2d5/2 2D2.5 4068250.0 cm-1
2s2.2p2(1d).3p 2p1/2 2P0.5 4082940.0 cm-1
2s2.2p2(3p).3d 4f3/2 4F1.5 4090490.0 cm-1
2s2.2p2(3p).3d 4f5/2 4F2.5 4097600.0 cm-1
2s2.2p2(1d).3p 2p3/2 2P1.5 4100270.0 cm-1
2s2.2p2(3p).3d 4f7/2 4F3.5 4108850.0 cm-1
2s2.2p2(3p).3d 4d3/2 4D1.5 4117770.0 cm-1
2s.2p3(5s).3s 4s3/2 4S1.5 4121680.0 cm-1
2s2.2p2(3p).3d 4d1/2 4D0.5 4121680.0 cm-1
2s2.2p2(3p).3d 4d5/2 4D2.5 4122030.0 cm-1
2s2.2p2(3p).3d 4f9/2 4F4.5 4122810.0 cm-1
2s2.2p2(3p).3d 2p3/2 2P1.5 4128950.0 cm-1
2s2.2p2(3p).3d 4d7/2 4D3.5 4130550.0 cm-1
2s2.2p2(1s).3p 2p1/2 2P0.5 4134470.0 cm-1
2s2.2p2(1s).3p 2p3/2 2P1.5 4135650.0 cm-1
2s2.2p2(3p).3d 2f5/2 2F2.5 4136520.0 cm-1
2s2.2p2(3p).3d 2p1/2 2P0.5 4145940.0 cm-1
2s2.2p2(3p).3d 4p5/2 4P2.5 4151590.0 cm-1
2s2.2p2(3p).3d 4p3/2 4P1.5 4157710.0 cm-1
2s2.2p2(3p).3d 2f7/2 2F3.5 4160510.0 cm-1
2s2.2p2(3p).3d 4p1/2 4P0.5 4160870.0 cm-1
2s2.2p2(3p).3d 2d3/2 2D1.5 4195720.0 cm-1
2s2.2p2(3p).3d 2d5/2 2D2.5 4199250.0 cm-1
2s2.2p2(1d).3d 2f7/2 2F3.5 4214470.0 cm-1
2s2.2p2(1d).3d 2g9/2 2G4.5 4218530.0 cm-1
2s2.2p2(1d).3d 2d3/2 2D1.5 4231700.0 cm-1
2s2.2p2(1d).3d 2d5/2 2D2.5 4234870.0 cm-1
2s2.2p2(1d).3d 2g7/2 2G3.5 4243720.0 cm-1
2s2.2p2(1d).3d 2p1/2 2P0.5 4251420.0 cm-1
2s2.2p2(1d).3d 2f5/2 2F2.5 4252530.0 cm-1
2s2.2p2(1d).3d 2p3/2 2P1.5 4260680.0 cm-1
2s2.2p2(1d).3d 2s1/2 2S0.5 4267570.0 cm-1
2s.2p3(3d).3s 4d3/2 4D1.5 4273230.0 cm-1
2s.2p3(3d).3s 4d5/2 4D2.5 4273630.0 cm-1
2s.2p3(3d).3s 4d1/2 4D0.5 4273840.0 cm-1
2s.2p3(3d).3s 4d7/2 4D3.5 4277570.0 cm-1
2s2.2p2(1s).3d 2d5/2 2D2.5 4315350.0 cm-1
2s2.2p2(1s).3d 2d3/2 2D1.5 4320930.0 cm-1
2s.2p3(3d).3s 2d3/2 2D1.5 4326260.0 cm-1
2s.2p3(3d).3s 2d5/2 2D2.5 4327960.0 cm-1
2s.2p3(3p).3s 4p1/2 4P0.5 4356320.0 cm-1
2s.2p3(3p).3s 4p3/2 4P1.5 4358500.0 cm-1
2s.2p3(3p).3s 4p5/2 4P2.5 4362780.0 cm-1
2s.2p3(3p).3s 2p1/2 2P0.5 4407080.0 cm-1
2s.2p3(3p).3s 2p3/2 2P1.5 4409880.0 cm-1
2s.2p3(3s).3s 4s3/2 4S1.5 4513820.0 cm-1
2s.2p3(1d).3s 2d5/2 2D2.5 4528300.0 cm-1
2s.2p3(1d).3s 2d3/2 2D1.5 4529000.0 cm-1
2s.2p3(3s).3s 2s1/2 2S0.5 4540330.0 cm-1
2s.2p3(1p).3s 2p3/2 2P1.5 4610320.0 cm-1
2s.2p3(1p).3s 2p1/2 2P0.5 4611470.0 cm-1
A+13        20        14       6517328.0
----------------------------------------------------------------------------

  Data generated from CHIANTI version 6.0

       http://www.chianti.rl.ac.uk/

  CHIANTI references
  ------------------

  Energy levels :
   %Observed energy levels (1-6): Feldman et al, 2000, ApJ, 544, 508
   %Observed energy levels (6-15): Edlen, 1984, Phys.Scripta, 30, 135
   %Observed energy levels (3d: 52,56,57,58,62,63,67,68,70,74): J.R. Fuhr, D.E. Kelleher, W.C.
         Martin, A. Musgrove, J. Sugar, W.L. Wiese, G.R. Dalton, R.A. Dragoset, P.J. Mohr, K. Olsen,
         J. Reader, E.B. Saloman, C.J. Sansonetti, G. Wiersma, "NIST Atomic Spectra Database" Ver.
         2.0, March 1999, NIST Physical Reference Data
   %Observed energy levels (3s: 17,18,20): Kaufman, V., Sugar, J., Cooper, D., 1982, Phys. Scr., 26, 163
   %Theoretical energy levels: Bhatia & Landi 2005, ADNDT, 90, 177
   %comment: theoretical energy levels come from the 24-configuration calculation in Bhatia & Landi (2005)
   % produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   % Enrico Landi - April 2004

  A-values levels :
   %filename: ca_14.wgfa
   %Observed energy levels (1-6): Feldman et al, 2000, ApJ, 544, 508
   %Observed energy levels (6-15): Edlen, 1984, Phys.Scripta, 30, 135
   %Observed energy levels (3d: 52,56,57,58,62,63,67,68,70,74): J.R. Fuhr, D.E. Kelleher, W.C.
         Martin, A. Musgrove, J. Sugar, W.L. Wiese, G.R. Dalton, R.A. Dragoset, P.J. Mohr, K. Olsen,
         J. Reader, E.B. Saloman, C.J. Sansonetti, G. Wiersma, "NIST Atomic Spectra Database" Ver.
         2.0, March 1999, NIST Physical Reference Data
   %Observed energy levels (3s: 17,18,20): Kaufman, V., Sugar, J., Cooper, D., 1982, Phys. Scr., 26, 163
   %Theoretical energy levels: 24-conf. model from Bhatia & Landi 2005, ADNDT, 444, 90, 177
   %A values and oscillator strengths: Bhatia & Landi 2005, ADNDT, 444, 90, 177
   %comment: theoretical energy levels and all radiative data come from the 24-configuration calculation in Bhatia & Landi (2005)
   % produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   % Enrico Landi - April 2004

  Collision strengths :

   %filename: ca_14.splups
   %Collision strengths: Landi & Bhatia, 2005, ADNDT, 90, 177
   %Oscillator strengths: Landi & Bhatia, 2005, ADNDT, 90, 177
   %comment: oscillator strengths have been taken from the 6-configuration model of Bhatia & Landi
       (2005) for consistency with the collisional calculation
   % produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   % E. Landi - Apr 2004



  Added to ADAS by
  ----------------

  Author : Martin O'Mullane
  Date   : 28/10/10

----------------------------------------------------------------------------

  Unphysical A values. Set A=1.0E-30 for following transitions :
     33    36    A =   2.54E+00
     34    36    A =   1.47E-03
     35    36    A =   2.62E-01
     56    60    A =   1.64E+02
     56    61    A =   7.34E-04
     57    61    A =   1.45E+00
     58    60    A =   1.40E+00
     58    61    A =   3.52E-04
     59    60    A =   1.06E-08
     59    61    A =   1.38E+00
     73    74    A =   2.26E-03
     73    76    A =   5.00E-09
     71    76    A =   9.28E-10
     79    81    A =   2.29E+01
     79    83    A =   8.45E+00
     80    81    A =   1.09E-05
     80    83    A =   1.16E+02
     82    83    A =   1.24E+00
     77    83    A =   3.84E+03

-------------------------------------------------------------------------------

 Level list :

     1   2   3   4   5   6   7   8   9  10
    11  12  13  14  15  16  17  18  19  20
    21  22  23  24  25  26  27  28  29  30
    31  32  33  34  35  36  37  38  39  40
    41  42  43  44  45  46  47  48  49  50
    51  52  53  54  55  56  57  58  59  60
    61  62  63  64  65  66  67  68  69  70
    71  72  73  74  75  76  77  78  79  80
    81  82  83  84  85  86  87  88  89  90
    91

 Original level order :

     1   2   3   4   5   6   7   8   9  10
    11  12  13  14  15  16  17  18  19  20
    21  22  24  23  25  26  27  28  29  30
    31  36  32  33  34  35  37  38  39  40
    41  42  43  44  45  46  48  47  49  51
    50  52  53  60  61  54  55  56  57  58
    59  62  63  64  65  66  67  68  69  70
    74  76  71  72  73  75  81  83  77  78
    79  80  82  84  85  86  87  88  89  90
    91

-------------------------------------------------------------------------------

 Filtered adf04 file to 
  - sort energy levels 
  - remove non physical A values from
    energy level reversals
  - remove energies above ionisation potential
  - remove duplicate transitions

 Code     : ADAS utility program, filter04
 Date     : 28-10-2010
 Producer : Martin O'Mullane              

-------------------------------------------------------------------------------

 Regenerated to use the standard ADAS temperature set.

 Add the transitions in the CHIANTI source which have a transition
 probability but no accompanying effective collision strength and
 set these upsilons to zero.

 Update : Martin O'Mullane
 Date   : 28-10-2010
-------------------------------------------------------------------------------

Contributors

  • CHIANTI
  • Martin O'Mullane
  • Processes
  • States
  • Comments
  • Origins

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