arf40_ic#w71.dat
Resolved Specific Ion Data Collections
- Ion
- W71+
- Temperature Range
- 89.61 eV → 1.344 x 105 eV
ADF04
- Filename
- arf40_ic#w71.dat
- Full Path
- adf04/coparf#74/arf40_ic#w71.dat
Download data
- Spontaneous Emission: W+71(i) → W+71(j) + hv
- Electron Impact Excitation: W+71(i) + e → W+71(j) + e
| 12 2S0.5 | 0.0 cm-1 |
| 13 2P0.5 | 1645840.0 cm-1 |
| 13 2P1.5 | 13862600.0 cm-1 |
| 14 2S0.5 | 89903400.0 cm-1 |
| 15 2P0.5 | 90309600.0 cm-1 |
| 15 2P1.5 | 93973900.0 cm-1 |
| 16 2D1.5 | 94024300.0 cm-1 |
| 16 2D2.5 | 95020600.0 cm-1 |
| 17 2S0.5 | 120662000.0 cm-1 |
| 18 2P0.5 | 120827000.0 cm-1 |
| 18 2P1.5 | 122368000.0 cm-1 |
| 19 2D1.5 | 122389000.0 cm-1 |
| 19 2D2.5 | 122812000.0 cm-1 |
| 1b 2S0.5 | 134652000.0 cm-1 |
| 1c 2P0.5 | 134733000.0 cm-1 |
| 1c 2P1.5 | 135518000.0 cm-1 |
| 1d 2D1.5 | 135529000.0 cm-1 |
| 1d 2D2.5 | 135746000.0 cm-1 |
| 1g 2S0.5 | 142152000.0 cm-1 |
| 1h 2P0.5 | 142197000.0 cm-1 |
| 1h 2P1.5 | 142649000.0 cm-1 |
| 1i 2D1.5 | 142655000.0 cm-1 |
| 1i 2D2.5 | 142781000.0 cm-1 |
| 1m 2S0.5 | 146630000.0 cm-1 |
| 1n 2P0.5 | 146656000.0 cm-1 |
| 1n 2P1.5 | 146940000.0 cm-1 |
| 1o 2D1.5 | 146944000.0 cm-1 |
| 1o 2D2.5 | 147023000.0 cm-1 |
| 11522 2S0.5 | 475136000.0 cm-1 |
| 11512513 4P0.5 | 475490000.0 cm-1 |
| 11512513 4P1.5 | 475824000.0 cm-1 |
| 11512513 2P0.5 | 476416000.0 cm-1 |
| 11512513 4P2.5 | 488119000.0 cm-1 |
| 11512513 2P1.5 | 488666000.0 cm-1 |
| 11512513 2P0.5 | 489047000.0 cm-1 |
| 11512513 2P1.5 | 489194000.0 cm-1 |
| 11512514 4S1.5 | 565352000.0 cm-1 |
| 11512514 2S0.5 | 565647000.0 cm-1 |
| 11512515 4P0.5 | 565756000.0 cm-1 |
| 11512515 4P1.5 | 565805000.0 cm-1 |
| 11512514 2S0.5 | 566140000.0 cm-1 |
| 11512515 2P0.5 | 566477000.0 cm-1 |
| 11512515 4P2.5 | 569522000.0 cm-1 |
| 11512515 2P1.5 | 569606000.0 cm-1 |
| 11512515 2P0.5 | 569655000.0 cm-1 |
| 11512515 2P1.5 | 570259000.0 cm-1 |
| 11512517 4S1.5 | 596379000.0 cm-1 |
| 11512517 2S0.5 | 596483000.0 cm-1 |
| 11512518 4P0.5 | 596530000.0 cm-1 |
| 11512518 4P1.5 | 596548000.0 cm-1 |
| 11512517 2S0.5 | 597102000.0 cm-1 |
| 11512518 2P0.5 | 597231000.0 cm-1 |
| 11512518 4P2.5 | 598109000.0 cm-1 |
| 11512518 2P1.5 | 598141000.0 cm-1 |
| 11512518 2P0.5 | 598160000.0 cm-1 |
| 11512518 2P1.5 | 598816000.0 cm-1 |
| 1151251b 4S1.5 | 610449000.0 cm-1 |
| 1151251b 2S0.5 | 610498000.0 cm-1 |
| 1151251c 4P0.5 | 610521000.0 cm-1 |
| 1151251c 4P1.5 | 610530000.0 cm-1 |
| 1151251b 2S0.5 | 611153000.0 cm-1 |
| 1151251c 2P0.5 | 611215000.0 cm-1 |
| 1151251c 4P2.5 | 611324000.0 cm-1 |
| 1151251c 2P1.5 | 611340000.0 cm-1 |
| 1151251c 2P0.5 | 611349000.0 cm-1 |
| 1151251c 2P1.5 | 612022000.0 cm-1 |
| 1151251g 4S1.5 | 617981000.0 cm-1 |
| 1151251g 2S0.5 | 618008000.0 cm-1 |
| 1151251h 4P0.5 | 618021000.0 cm-1 |
| 1151251h 4P1.5 | 618026000.0 cm-1 |
| 1151251h 4P2.5 | 618483000.0 cm-1 |
| 1151251h 2P1.5 | 618492000.0 cm-1 |
| 1151251h 2P0.5 | 618497000.0 cm-1 |
| 1151251g 2S0.5 | 618679000.0 cm-1 |
| 1151251h 2P0.5 | 618713000.0 cm-1 |
| 1151251h 2P1.5 | 619177000.0 cm-1 |
| 1151251m 4S1.5 | 622474000.0 cm-1 |
| 1151251m 2S0.5 | 622490000.0 cm-1 |
| 1151251n 4P0.5 | 622498000.0 cm-1 |
| 1151251n 4P1.5 | 622501000.0 cm-1 |
| 1151251n 4P2.5 | 622788000.0 cm-1 |
| 1151251n 2P1.5 | 622793000.0 cm-1 |
| 1151251n 2P0.5 | 622797000.0 cm-1 |
| 1151251m 2S0.5 | 623168000.0 cm-1 |
| 1151251n 2P0.5 | 623189000.0 cm-1 |
| 1151251n 2P1.5 | 623480000.0 cm-1 |
Contributors
- Adam Foster
- Martin O'Mullane
-------------------------------------------------------------------------------- Configuration Eissner == Standard R % Parentage 1 12 == 2S1 100 1 2S 2S/ 2 13 == 2P1 100 1 2P 2P/ 3 13 == 2P1 100 1 2P 2P/ 4 14 == 3S1 100 1 2S 2S/ 5 15 == 3P1 100 1 2P 2P/ 6 15 == 3P1 100 1 2P 2P/ 7 16 == 3D1 100 1 2D 2D/ 8 16 == 3D1 100 1 2D 2D/ 9 17 == 4S1 100 1 2S 2S/ 10 18 == 4P1 100 1 2P 2P/ 11 18 == 4P1 100 1 2P 2P/ 12 19 == 4D1 100 1 2D 2D/ 13 19 == 4D1 100 1 2D 2D/ 14 1B == 5S1 100 1 2S 2S/ 15 1C == 5P1 100 1 2P 2P/ 16 1C == 5P1 100 1 2P 2P/ 17 1D == 5D1 100 1 2D 2D/ 18 1D == 5D1 100 1 2D 2D/ 19 1G == 6S1 100 1 2S 2S/ 20 1H == 6P1 100 1 2P 2P/ 21 1H == 6P1 100 1 2P 2P/ 22 1I == 6D1 100 1 2D 2D/ 23 1I == 6D1 100 1 2D 2D/ 24 1M == 7S1 100 1 2S 2S/ 25 1N == 7P1 100 1 2P 2P/ 26 1N == 7P1 100 1 2P 2P/ 27 1O == 7D1 100 1 2D 2D/ 28 1O == 7D1 100 1 2D 2D/ 29 11522 == 1S1 2S2 100 1 2S 2S/ 30 11512513 == 1S1 2S1 2P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 31 11512513 == 1S1 2S1 2P1 59 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 32 11512513 == 1S1 2S1 2P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 33 11512513 == 1S1 2S1 2P1 100 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 34 11512513 == 1S1 2S1 2P1 54 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 35 11512513 == 1S1 2S1 2P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 36 11512513 == 1S1 2S1 2P1 91 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 37 11512514 == 1S1 2S1 3S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 4S/ 38 11512514 == 1S1 2S1 3S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 2S/ 39 11512515 == 1S1 2S1 3P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 40 11512515 == 1S1 2S1 3P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 41 11512514 == 1S1 2S1 3S1 100 1 2S 2S/ 1 2S 1S/ 1 2S 2S/ 42 11512515 == 1S1 2S1 3P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 43 11512515 == 1S1 2S1 3P1 100 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 44 11512515 == 1S1 2S1 3P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 45 11512515 == 1S1 2S1 3P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 46 11512515 == 1S1 2S1 3P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 47 11512517 == 1S1 2S1 4S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 4S/ 48 11512517 == 1S1 2S1 4S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 2S/ 49 11512518 == 1S1 2S1 4P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 50 11512518 == 1S1 2S1 4P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 51 11512517 == 1S1 2S1 4S1 100 1 2S 2S/ 1 2S 1S/ 1 2S 2S/ 52 11512518 == 1S1 2S1 4P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 53 11512518 == 1S1 2S1 4P1 100 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 54 11512518 == 1S1 2S1 4P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 55 11512518 == 1S1 2S1 4P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 56 11512518 == 1S1 2S1 4P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 57 1151251B == 1S1 2S1 5S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 4S/ 58 1151251B == 1S1 2S1 5S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 2S/ 59 1151251C == 1S1 2S1 5P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 60 1151251C == 1S1 2S1 5P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 61 1151251B == 1S1 2S1 5S1 100 1 2S 2S/ 1 2S 1S/ 1 2S 2S/ 62 1151251C == 1S1 2S1 5P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 63 1151251C == 1S1 2S1 5P1 100 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 64 1151251C == 1S1 2S1 5P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 65 1151251C == 1S1 2S1 5P1 89 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 66 1151251C == 1S1 2S1 5P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 67 1151251G == 1S1 2S1 6S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 4S/ 68 1151251G == 1S1 2S1 6S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 2S/ 69 1151251H == 1S1 2S1 6P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 70 1151251H == 1S1 2S1 6P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 71 1151251H == 1S1 2S1 6P1 100 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 72 1151251H == 1S1 2S1 6P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 73 1151251H == 1S1 2S1 6P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 74 1151251G == 1S1 2S1 6S1 100 1 2S 2S/ 1 2S 1S/ 1 2S 2S/ 75 1151251H == 1S1 2S1 6P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 76 1151251H == 1S1 2S1 6P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 77 1151251M == 1S1 2S1 7S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 4S/ 78 1151251M == 1S1 2S1 7S1 100 1 2S 2S/ 1 2S 3S/ 1 2S 2S/ 79 1151251N == 1S1 2S1 7P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 80 1151251N == 1S1 2S1 7P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 81 1151251N == 1S1 2S1 7P1 100 1 2S 2S/ 1 2S 3S/ 1 2P 4P/ 82 1151251N == 1S1 2S1 7P1 57 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 83 1151251N == 1S1 2S1 7P1 90 1 2S 2S/ 1 2S 3S/ 1 2P 2P/ 84 1151251M == 1S1 2S1 7S1 100 1 2S 2S/ 1 2S 1S/ 1 2S 2S/ 85 1151251N == 1S1 2S1 7P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ 86 1151251N == 1S1 2S1 7P1 100 1 2S 2S/ 1 2S 1S/ 1 2P 2P/ (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_w71.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 496 1431 1506 initially 496 1431 1506 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 -------------------------------------------------------------------------------