ls#ne5.dat
Resolved Specific Ion Data Collections
- Ion
- Ne5+
- Temperature Range
- 1.551 eV → 1551 eV
ADF04
- Filename
- ls#ne5.dat
- Full Path
- adf04/copmm#10/ls#ne5.dat
Download data
- Spontaneous Emission: Ne+5(i) → Ne+5(j) + hv
- Electron Impact Excitation: Ne+5(i) + e → Ne+5(j) + e
| 21522513 2P2.5 | 0.0 cm-1 |
| 21512523 4P5.5 | 103906.0 cm-1 |
| 21512523 2D4.5 | 174990.0 cm-1 |
| 21512523 2S0.5 | 216240.0 cm-1 |
| 21512523 2P2.5 | 237920.0 cm-1 |
| 21533 4S1.5 | 323250.0 cm-1 |
| 21533 2D4.5 | 363560.0 cm-1 |
| 21533 2P2.5 | 400660.0 cm-1 |
| 21522514 2S0.5 | 741180.0 cm-1 |
| 21522515 2P2.5 | 791720.0 cm-1 |
| 21522516 2D4.5 | 832890.0 cm-1 |
-------------------------------------------------------------------------------- Configuration Eissner == Standard Parentage 1 21522513 == 1S2 2S2 2P1 1 2P 2P/ 2 21512523 == 1S2 2S1 2P2 1 2S 2S/ 1 3P 4P/ 3 21512523 == 1S2 2S1 2P2 1 2S 2S/ 2 1D 2D/ 4 21512523 == 1S2 2S1 2P2 1 2S 2S/ 3 1S 2S/ 5 21512523 == 1S2 2S1 2P2 1 2S 2S/ 1 3P 2P/ 6 21533 == 1S2 2P3 1 4S 4S/ 7 21533 == 1S2 2P3 2 2D 2D/ 8 21533 == 1S2 2P3 3 2P 2P/ 9 21522514 == 1S2 2S2 3S1 1 2S 2S/ 10 21522515 == 1S2 2S2 3P1 1 2P 2P/ 11 21522516 == 1S2 2S2 3D1 1 2D 2D/ -------------------------------------------------------------------------------- IC Level list : 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 Map to LS levels : 1 1 2 2 2 3 3 4 5 5 6 7 7 8 8 9 10 10 11 11 -------------------------------------------------------------------------------- Generated from Cowan Atomic Structure Program From IFG file : /home/mog/adas/pass/ifg#ne5.dat Options in effect Coupling Avalue numtemps Lweight Isonuclear Comment Level LS YES 14 NO YES 2 Cowan code options ------------------ SCF method used : HR Scale factors for Slater Parameters : 80 90 80 80 80 Optically allowed transitions : Yes Optically forbidden transitions (M1) : Both Parities Optically forbidden transitions (E2) : Both Parities Born Collision-Strength - forbidden : 0 -> 2 Born Collision-Strength - allowed : 1 -> 1 Parity 1 Parity 2 Allowed 35 54 86 initially 10 15 30 reduced Note: The Born method does NOT calculate spin changing transitions correctly. Supplement for important transitions of this type. Producer : Martin O'Mullane Date : 05/05/00 -------------------------------------------------------------------------------- --------------------------------------------------------------------------------- ---------------------------------------------------------------------------------