qef97#h_en2_kvi#be4.dat

Charge Exchange Effective Emission Coefficients

Ion
Be4+
Temperature Range
1000 eV → 3.000 x 104 eV
Density Range
1.000 x 1011 cm-3 → 1.000 x 1014 cm-3
Energy Range
500 eV → 1.000 x 105 eV
Mag Field Range
3 T → 3 T
Zeff Range
1 → 6

ADF12

Filename
qef97#h_en2_kvi#be4.dat
Full Path
adf12/qef97#h/qef97#h_en2_kvi#be4.dat
Download data
WavelengthTransition
64.1Å3 → 1
303.7Å4 → 2
409.9Å3 → 2
800.8Å5 → 3
1171.3Å4 → 3
1640.2Å6 → 4
2530.5Å5 → 4
2906.2Å7 → 5
4658.6Å6 → 5
4685.3Å8 → 6
7726.2Å7 → 6
11904.2Å8 → 7
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  EFFECTIVE COEFFICIENT LIST:

     ISEL    TYPE      ION       INFORMATION
     ----    ----      ---       -----------

       1.   CX.EMIS.  BE+ 3      N = 3 -  2    409.9    20/6/97
       2.   CX.EMIS.  BE+ 3      N = 4 -  3   1171.3    20/6/97
       3.   CX.EMIS.  BE+ 3      N = 5 -  4   2530.5    20/6/97
       4.   CX.EMIS.  BE+ 3      N = 6 -  5   4658.6    20/6/97
       5.   CX.EMIS.  BE+ 3      N = 7 -  6   7726.2    20/6/97
       6.   CX.EMIS.  BE+ 3      N = 8 -  7  11904.2    20/6/97
       7.   CX.EMIS.  BE+ 3      N = 3 -  1     64.1    20/6/97
       8.   CX.EMIS.  BE+ 3      N = 4 -  2    303.7    20/6/97
       9.   CX.EMIS.  BE+ 3      N = 5 -  3    800.8    20/6/97
      10.   CX.EMIS.  BE+ 3      N = 6 -  4   1640.2    20/6/97
      11.   CX.EMIS.  BE+ 3      N = 7 -  5   2906.2    20/6/97
      12.   CX.EMIS.  BE+ 3      N = 8 -  6   4685.3    20/6/97
-----------------------------------------------------------------------

  Donor: h0(n=2)

  Production code:  ADAS309

  Source data set: /packages/adas/adf01/qcx#h0/qcx#h0_en2_kvi#be4.dat

  Producer:  H. P. Summers

  Date:  20 June 1997

  Update:

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

  Replace QZEFF data. The previous version only changed
  on integral Z which leads to problems in interpolation
  as the file contains fractional Zeff.

  AUTHOR : Martin O'Mullane
  DATE   : 10/10/05

---------------------------------------------------------------------------------
  
  Identify the donor as D=H(n=2) in each block.

  AUTHOR : Martin O'Mullane
  DATE   : 31/08/06

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Predecessors

Contributors

  • Kernfysisch Versneller Instituut
  • Hugh Summers
  • Martin O'Mullane
  • Transitions
  • Comments
  • Origins

Data Classes