chv6_ic#fe22.dat

Resolved Specific Ion Data Collections

Ion
Fe22+
Temperature Range
22.75 eV → 2.275 x 104 eV

ADF04

Filename
chv6_ic#fe22.dat
Full Path
adf04/copch#26/chv6_ic#fe22.dat
Download data
  • Spontaneous Emission: Fe+22(i) → Fe+22(j) + hv
  • Electron Impact Excitation: Fe+22(i) + e → Fe+22(j) + e
2s2 1s0 1S0.0 0.0 cm-1
2s.2p 3p0 3P0.0 345707.0 cm-1
2s.2p 3p1 3P1.0 377693.0 cm-1
2s.2p 3p2 3P2.0 469121.0 cm-1
2s.2p 1p1 1P1.0 756439.0 cm-1
2p2 3p0 3P0.0 953971.0 cm-1
2p2 3p1 3P1.0 1023200.0 cm-1
2p2 3p2 3P2.0 1071670.0 cm-1
2p2 1d2 1D2.0 1205140.0 cm-1
2p2 1s0 1S0.0 1427090.0 cm-1
2s.3s 3s1 3S1.0 8919390.0 cm-1
2s.3s 1s0 1S0.0 8991140.0 cm-1
2s.3p 3p1 3P1.0 9085710.0 cm-1
2s.3p 3p0 3P0.0 9085800.0 cm-1
2s.3p 1p1 1P1.0 9116050.0 cm-1
2s.3p 3p2 3P2.0 9119420.0 cm-1
2s.3d 3d1 3D1.0 9209350.0 cm-1
2s.3d 3d2 3D2.0 9214240.0 cm-1
2s.3d 3d3 3D3.0 9221970.0 cm-1
2s.3d 1d2 1D2.0 9286140.0 cm-1
2p.3s 3p0 3P0.0 9358930.0 cm-1
2p.3s 3p1 3P1.0 9376880.0 cm-1
2p.3p 3d1 3D1.0 9467030.0 cm-1
2p.3s 3p2 3P2.0 9479550.0 cm-1
2p.3s 1p1 1P1.0 9527450.0 cm-1
2p.3p 3d2 3D2.0 9532030.0 cm-1
2p.3p 1p1 1P1.0 9533210.0 cm-1
2p.3p 3p0 3P0.0 9556830.0 cm-1
2p.3d 3f2 3F2.0 9590850.0 cm-1
2p.3p 3p1 3P1.0 9621590.0 cm-1
2p.3p 3d3 3D3.0 9627200.0 cm-1
2p.3d 3f3 3F3.0 9634100.0 cm-1
2p.3p 3s1 3S1.0 9646160.0 cm-1
2p.3d 3d2 3D2.0 9646730.0 cm-1
2p.3p 3p2 3P2.0 9650040.0 cm-1
2p.3d 3d1 3D1.0 9666720.0 cm-1
2p.3p 1d2 1D2.0 9712810.0 cm-1
2p.3d 3f4 3F4.0 9721890.0 cm-1
2p.3d 1d2 1D2.0 9732190.0 cm-1
2p.3d 3d3 3D3.0 9757890.0 cm-1
2p.3d 3p2 3P2.0 9777150.0 cm-1
2p.3d 3p1 3P1.0 9777830.0 cm-1
2p.3d 3p0 3P0.0 9780120.0 cm-1
2p.3p 1s0 1S0.0 9792650.0 cm-1
2p.3d 1f3 1F3.0 9840610.0 cm-1
2p.3d 1p1 1P1.0 9850240.0 cm-1
2s.4s 3s1 3S1.0 11973100.0 cm-1
2s.4s 1s0 1S0.0 11996200.0 cm-1
2s.4p 3p0 3P0.0 12036000.0 cm-1
2s.4p 3p1 3P1.0 12037800.0 cm-1
2s.4p 3p2 3P2.0 12049600.0 cm-1
2s.4p 1p1 1P1.0 12054600.0 cm-1
2s.4d 3d1 3D1.0 12087100.0 cm-1
2s.4d 3d2 3D2.0 12088700.0 cm-1
2s.4d 3d3 3D3.0 12091700.0 cm-1
2s.4d 1d2 1D2.0 12111600.0 cm-1
2s.4f 3f2 3F2.0 12115600.0 cm-1
2s.4f 3f3 3F3.0 12116400.0 cm-1
2s.4f 3f4 3F4.0 12117900.0 cm-1
2s.4f 1f3 1F3.0 12123000.0 cm-1
2p.4s 3p0 3P0.0 12378600.0 cm-1
2p.4s 3p1 3P1.0 12383400.0 cm-1
2p.4p 3d1 3D1.0 12425000.0 cm-1
2p.4p 3p1 3P1.0 12450600.0 cm-1
2p.4p 3d2 3D2.0 12452400.0 cm-1
2p.4p 3p0 3P0.0 12455500.0 cm-1
2p.4d 3f2 3F2.0 12475100.0 cm-1
2p.4d 3p2 3P2.0 12490600.0 cm-1
2p.4d 3f3 3F3.0 12495400.0 cm-1
2p.4d 3d1 3D1.0 12500900.0 cm-1
2p.4s 3p2 3P2.0 12504300.0 cm-1
2p.4f 3g3 3G3.0 12506500.0 cm-1
2p.4f 3f2 3F2.0 12509800.0 cm-1
2p.4f 3d3 3D3.0 12510600.0 cm-1
2p.4s 1p1 1P1.0 12510900.0 cm-1
2p.4f 3g4 3G4.0 12511100.0 cm-1
2p.4p 1p1 1P1.0 12555500.0 cm-1
2p.4p 3d3 3D3.0 12562200.0 cm-1
2p.4p 1d2 1D2.0 12562500.0 cm-1
2p.4p 3s1 3S1.0 12567600.0 cm-1
2p.4p 3p2 3P2.0 12587100.0 cm-1
2p.4d 3f4 3F4.0 12601400.0 cm-1
2p.4d 1d2 1D2.0 12601400.0 cm-1
2p.4d 3d3 3D3.0 12609400.0 cm-1
2p.4p 1s0 1S0.0 12615200.0 cm-1
2p.4d 3d2 3D2.0 12617100.0 cm-1
2p.4d 3p1 3P1.0 12617100.0 cm-1
2p.4d 3p0 3P0.0 12618200.0 cm-1
2p.4f 1f3 1F3.0 12624800.0 cm-1
2p.4f 3f4 3F4.0 12627500.0 cm-1
2p.4f 1d2 1D2.0 12631500.0 cm-1
2p.4f 3f3 3F3.0 12632100.0 cm-1
2p.4f 3g5 3G5.0 12633600.0 cm-1
2p.4f 1g4 1G4.0 12636000.0 cm-1
2p.4d 1f3 1F3.0 12637200.0 cm-1
2p.4f 3d1 3D1.0 12638300.0 cm-1
2p.4d 1p1 1P1.0 12641900.0 cm-1
2p.4f 3d2 3D2.0 12642700.0 cm-1
2s.5s 3s1 3S1.0 13338900.0 cm-1
2s.5s 1s0 1S0.0 13349500.0 cm-1
2s.5p 3p0 3P0.0 13370800.0 cm-1
2s.5p 3p1 3P1.0 13371600.0 cm-1
2s.5p 3p2 3P2.0 13378300.0 cm-1
2s.5p 1p1 1P1.0 13381300.0 cm-1
2s.5d 3d1 3D1.0 13396700.0 cm-1
2s.5d 3d2 3D2.0 13397500.0 cm-1
2s.5d 3d3 3D3.0 13399000.0 cm-1
2s.5d 1d2 1D2.0 13407000.0 cm-1
2s.5f 3f2 3F2.0 13411500.0 cm-1
2s.5f 3f3 3F3.0 13411800.0 cm-1
2s.5f 3f4 3F4.0 13412500.0 cm-1
2s.5g 3g3 3G3.0 13412900.0 cm-1
2s.5g 3g4 3G4.0 13412900.0 cm-1
2s.5g 3g5 3G5.0 13413500.0 cm-1
2s.5g 1g4 1G4.0 13413600.0 cm-1
2s.5f 1f3 1F3.0 13415200.0 cm-1
2p.5s 3p0 3P0.0 13740300.0 cm-1
2p.5s 3p1 3P1.0 13742100.0 cm-1
2p.5p 3d1 3D1.0 13765300.0 cm-1
2p.5p 3p1 3P1.0 13778400.0 cm-1
2p.5p 3d2 3D2.0 13779400.0 cm-1
2p.5p 3p0 3P0.0 13779500.0 cm-1
2p.5d 3f2 3F2.0 13791200.0 cm-1
2p.5d 3p2 3P2.0 13799500.0 cm-1
2p.5d 3f3 3F3.0 13801000.0 cm-1
2p.5d 3d1 3D1.0 13802200.0 cm-1
2p.5f 3g3 3G3.0 13807200.0 cm-1
2p.5g 3h4 3H4.0 13808000.0 cm-1
2p.5g 3g3 3G3.0 13808300.0 cm-1
2p.5g 3h5 3H5.0 13808700.0 cm-1
2p.5g 3f4 3F4.0 13808900.0 cm-1
2p.5f 3f2 3F2.0 13809100.0 cm-1
2p.5f 3d3 3D3.0 13809400.0 cm-1
2p.5f 3g4 3G4.0 13809600.0 cm-1
2p.5s 3p2 3P2.0 13868400.0 cm-1
2p.5s 1p1 1P1.0 13872200.0 cm-1
2p.5p 1p1 1P1.0 13897500.0 cm-1
2p.5p 1d2 1D2.0 13899800.0 cm-1
2p.5p 3d3 3D3.0 13901700.0 cm-1
2p.5p 3s1 3S1.0 13903400.0 cm-1
2p.5p 3p2 3P2.0 13911800.0 cm-1
2p.5d 1d2 1D2.0 13921000.0 cm-1
2p.5d 3f4 3F4.0 13921400.0 cm-1
2p.5p 1s0 1S0.0 13923600.0 cm-1
2p.5d 3d3 3D3.0 13924200.0 cm-1
2p.5d 3p1 3P1.0 13927500.0 cm-1
2p.5d 3d2 3D2.0 13927500.0 cm-1
2p.5d 3p0 3P0.0 13928100.0 cm-1
2p.5f 1f3 1F3.0 13933900.0 cm-1
2p.5g 1g4 1G4.0 13934900.0 cm-1
2p.5f 3f4 3F4.0 13935100.0 cm-1
2p.5d 1f3 1F3.0 13935500.0 cm-1
2p.5g 3g5 3G5.0 13935600.0 cm-1
2p.5g 1f3 1F3.0 13936000.0 cm-1
2p.5g 3g4 3G4.0 13936500.0 cm-1
2p.5f 1d2 1D2.0 13936700.0 cm-1
2p.5f 3f3 3F3.0 13937000.0 cm-1
2p.5g 1h5 1H5.0 13937200.0 cm-1
2p.5f 3g5 3G5.0 13937400.0 cm-1
2p.5g 3h6 3H6.0 13937800.0 cm-1
2p.5d 1p1 1P1.0 13938000.0 cm-1
2p.5g 3f2 3F2.0 13938400.0 cm-1
2p.5f 1g4 1G4.0 13938900.0 cm-1
2p.5g 3f3 3F3.0 13939000.0 cm-1
2p.5f 3d1 3D1.0 13939600.0 cm-1
2p.5f 3d2 3D2.0 13941800.0 cm-1
----------------------------------------------------------------------------

  Data generated from CHIANTI version 6.0

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

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

  Energy levels :
   %observed energies (n=2,3,4): Del Zanna, Chidichimo, Mason, 2005, A&A, 432, 1137
   %observed energy levels (n=5): Shirai,T., et al, 2000, J.Phys.Chem.Ref.Data, Monograph 8
   %observed energy levels (97,100): Landi & Phillips 2005, ApJS, 160, 286
   %observed energy levels (above ionization): Palmeri P., Mendoza C., Kallman T.R., Bautista M.A., 2003, A&A, 403, 1175
   %theoretical energies (levels 1-98, second column): Del Zanna, Mason, 2005, A&A, 430, 331 (scattering calculation)
   %theoretical energies (levels 1-98, third column): Del Zanna, Mason, 2005, A&A, 430, 331 (SUPERSTRUCTURE calculation
       with term energy corrections)
   %Theoretical energy levels (99-166): Landi & Gu, 2006, ApJ, 640, 1171
   %theoretical energy levels (above ionization): Bautista, M.A., Mendoza, C., Kallman, T.R., Palmeri, P., 2004, A&A, 418, 1171
   %Comment: the theoretical energies from Palmeri et al. have been used as experimental ones when the latter were unavailable
   %produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   %   G. Del Zanna and E. Landi - June 23 2005

  A-values levels :
   %filename: fe_23.wgfa
   %observed energies (n=2,3,4): Del Zanna, Chidichimo, Mason, 2005, A&A, 432, 1137
   %observed energy levels (n=5): Shirai,T., et al, 2000, J.Phys.Chem.Ref.Data, Monograph 8
   %observed energy levels (97,100): Landi & Phillips 2005, ApJS, 160, 286
   %observed energy levels (above ionization): Palmeri P., Mendoza C., Kallman T.R., Bautista M.A., 2003, A&A, 403, 1175
   %theoretical energies levels (1-98): Del Zanna, Mason, 2005, A&A, 430, 331 (SUPERSTRUCTURE calculation with term energy corrections)
   %Theoretical energy levels (99-166): Landi & Gu, 2006, ApJ, 640, 1171
   %A and gf values (1-98): Del Zanna, Chidichimo, Mason, 2005, A&A, 432, 1137
   %A and gf values (99-166): Landi & Gu, 2006, ApJ, 640, 1171
   %Radiative data (above ionization): Palmeri P., Mendoza C., Kallman T.R., Bautista M.A., 2003, A&A, 403, 1175
   %Autoionization rates: Palmeri P., Mendoza C., Kallman T.R., Bautista M.A., 2003, A&A, 403, 1175
   %produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   %  G. Del Zanna and E. Landi - June 23 2005

  Collision strengths :

   %filename: fe_23.splups
   %oscillator strengths (levels 1-98): Del Zanna, Mason, 2005, A&A, 430, 331 (scattering calculation)
   %oscillator strengths (levels 99-166): Landi & Gu, 2006, ApJ, 640, 1171
   %oscillator strengths (above ionization): Bautista, M.A., Mendoza, C., Kallman, T.R., Palmeri, P., 2004, A&A, 418, 1171
   %effective Collision strengths (levels 1-98): Chidichimo, Del Zanna, Mason, 2005, A&A, 430, 331
   %collision strengths (levels 99-166): Landi & Gu, 2006, ApJ, 640, 1171
   %collisional data (above ionization): Bautista, M.A., Mendoza, C., Kallman, T.R., Palmeri, P., 2004, A&A, 418, 1171
   %comment: Effective collision strengths from Chidichimo et al 2005 were calculated in the range 2x10^6 < T < 1.3x10^8 K
   %produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   %    G.Del Zanna and E. Landi - Jun 23, 2005



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

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

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

 The following levels were above the ionisation potential :   15797892.6

    167 1s.2s2.2p 3P0      (3)1( 0.0)      53306290.0
    168 1s.2s2.2p 3P1      (3)1( 1.0)      53332369.0
    169 1s.2s2.2p 3P2      (3)1( 2.0)      53429087.0
    170 1s.2s(4P).2p2 5P1  (5)1( 1.0)      53450226.0
    171 1s.2s(4P).2p2 5P2  (5)1( 2.0)      53504932.0
    172 1s.2s(4P).2p2 5P3  (5)1( 3.0)      53562400.0
    173 1s.2s2.2p 1P1      (1)1( 1.0)      53572386.0
    174 1s.2s(4P).2p2 3P0  (3)1( 0.0)      53813784.0
    175 1s.2s(4P).2p2 3P1  (3)1( 1.0)      53845226.0
    176 1s.2s(2D).2p2 3D2  (3)2( 2.0)      53864931.0
    177 1s.2s(2D).2p2 3D1  (3)2( 1.0)      53894515.0
    178 1s.2s(2D).2p2 3D3  (3)2( 3.0)      53900995.0
    179 1s.2s(4P).2p2 3P2  (3)1( 2.0)      53946725.0
    180 1s.2s(2S).2p2 3S1  (3)0( 1.0)      54028306.0
    181 1s.2s(2P).2p2 3P0  (3)1( 0.0)      54045887.0
    182 1s.2s(2D).2p2 1D2  (1)2( 2.0)      54100593.0
    183 1s.2s(2P).2p2 3P1  (3)1( 1.0)      54139259.0
    184 1s.2p3 5S2         (5)0( 2.0)      54152644.0
    185 1s.2s(2P).2p2 3P2  (3)1( 2.0)      54188176.0
    186 1s.2s(2P).2p2 1P1  (1)1( 1.0)      54292012.0
    187 1s.2s(2S).2p2 1S0  (1)0( 0.0)      54322286.0
    188 1s.2p3 3D1         (3)2( 1.0)      54384322.0
    189 1s.2p3 3D2         (3)2( 2.0)      54395847.0
    190 1s.2p3 3D3         (3)2( 3.0)      54422085.0
    191 1s.2p3 3S1         (3)0( 1.0)      54485130.0
    192 1s.2p3 1D2         (1)2( 2.0)      54551840.0
    193 1s.2p3 3P0         (3)1( 0.0)      54577175.0
    194 1s.2p3 3P1         (3)1( 1.0)      54603731.0
    195 1s.2p3 3P2         (3)1( 2.0)      54665395.0
    196 1s.2p3 1P1         (1)1( 1.0)      54785908.0

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

 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
  • Manuel Bautista
  • Martin O'Mullane
  • Processes
  • States
  • Comments
  • Origins

Data Classes

Fundamental

ADF01ADF04ADF07ADF08ADF09ADF38ADF39ADF48

Derived

ADF11ADF12ADF13ADF15ADF21ADF22