arf40_ic#w73.dat

Resolved Specific Ion Data Collections

Ion
W73+
Temperature Range
94.78 eV → 1.413 x 105 eV

ADF04

Filename
arf40_ic#w73.dat
Full Path
adf04/coparf#74/arf40_ic#w73.dat
Download data
  • Spontaneous Emission: W+73(i) → W+73(j) + hv
  • Electron Impact Excitation: W+73(i) + e → W+73(j) + e
11 2S0.5 0.0 cm-1
13 2P0.5 483616000.0 cm-1
12 2S0.5 483724000.0 cm-1
13 2P1.5 497179000.0 cm-1
15 2P0.5 577369000.0 cm-1
14 2S0.5 577428000.0 cm-1
16 2D1.5 581320000.0 cm-1
15 2P1.5 581440000.0 cm-1
16 2D2.5 582437000.0 cm-1
18 2P0.5 609655000.0 cm-1
17 2S0.5 609689000.0 cm-1
19 2D1.5 611318000.0 cm-1
18 2P1.5 611367000.0 cm-1
19 2D2.5 611792000.0 cm-1
1c 2P0.5 624368000.0 cm-1
1b 2S0.5 624388000.0 cm-1
1d 2D1.5 625215000.0 cm-1
1c 2P1.5 625240000.0 cm-1
1d 2D2.5 625458000.0 cm-1
1h 2P0.5 632264000.0 cm-1
1g 2S0.5 632276000.0 cm-1
1i 2D1.5 632752000.0 cm-1
1h 2P1.5 632766000.0 cm-1
1i 2D2.5 632893000.0 cm-1
--------------------------------------------------------------------------------

             Configuration
       Eissner            == Standard           R  %   Parentage

   1   11                 ==  1S1                 100  1 2S  2S/
   2   13                 ==  2P1                 100  1 2P  2P/
   3   12                 ==  2S1                 100  1 2S  2S/
   4   13                 ==  2P1                 100  1 2P  2P/
   5   15                 ==  3P1                 100  1 2P  2P/
   6   14                 ==  3S1                 100  1 2S  2S/
   7   16                 ==  3D1                 100  1 2D  2D/
   8   15                 ==  3P1                 100  1 2P  2P/
   9   16                 ==  3D1                 100  1 2D  2D/
  10   18                 ==  4P1                 100  1 2P  2P/
  11   17                 ==  4S1                 100  1 2S  2S/
  12   19                 ==  4D1                 100  1 2D  2D/
  13   18                 ==  4P1                 100  1 2P  2P/
  14   19                 ==  4D1                 100  1 2D  2D/
  15   1C                 ==  5P1                 100  1 2P  2P/
  16   1B                 ==  5S1                 100  1 2S  2S/
  17   1D                 ==  5D1                 100  1 2D  2D/
  18   1C                 ==  5P1                 100  1 2P  2P/
  19   1D                 ==  5D1                 100  1 2D  2D/
  20   1H                 ==  6P1                 100  1 2P  2P/
  21   1G                 ==  6S1                 100  1 2S  2S/
  22   1I                 ==  6D1                 100  1 2D  2D/
  23   1H                 ==  6P1                 100  1 2P  2P/
  24   1I                 ==  6D1                 100  1 2D  2D/

 (R) - Levels (or levels within a term) have been reassigned
       from their principal component.

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

   Generated from Cowan Atomic Structure Program

   From IFG file : ./ifg#adf34_tungsten_w73.dat

   Options in effect

   Coupling    Avalue   numtemps   Lweight   Isonuclear   Comment Level
   IC          YES      14         NO        YES          2


   Cowan code options
   ------------------
                                                                          
      Cowan plane wave Born method                                        
                                                                          
      Scale factors 85 95 85 85 50                                        
                                                                          
   Parity 1    Parity 2    Allowed
         91          45        120     initially
         91          45        120     reduced

   Note: The Born method does NOT calculate spin changing transitions
   correctly. You should supplement for important transitions of this type.

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

   Code     : ADAS801
   Producer : Adam Foster
   Date     : 15/05/09

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

   Correct the orbital energy line to insert 0.0 for orbitals not present
   in the set of configurations.

   Martin O'Mullane
   29-11-2011

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Contributors

  • Adam Foster
  • Martin O'Mullane
  • Processes
  • States
  • Comments
  • Origins

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