lilike_lgy10#be1.dat

Resolved Specific Ion Data Collections

Ion: Be¹⁺
Temperature Range: 0.069 eV → 689 eV

ADF04

Filename: lilike_lgy10#be1.dat
Full Path: adf04/copaw#li/lilike_lgy10#be1.dat

Spontaneous Emission: Be⁺¹(i) → Be⁺¹(j) + hv
Electron Impact Excitation: Be⁺¹(i) + e → Be⁺¹(j) + e

2s1 ²S_0.5	0.0 cm^-1
2p1 ²P_0.5	32174.0 cm^-1
2p1 ²P_1.5	32179.0 cm^-1
3s1 ²S_0.5	87731.0 cm^-1
3p1 ²P_0.5	96084.0 cm^-1
3p1 ²P_1.5	96085.0 cm^-1
3d1 ²D_1.5	97442.0 cm^-1
3d1 ²D_2.5	97443.0 cm^-1
4s1 ²S_0.5	114871.0 cm^-1
4p1 ²P_0.5	118206.0 cm^-1
4p1 ²P_1.5	118207.0 cm^-1
4d1 ²D_1.5	118787.0 cm^-1
4d1 ²D_2.5	118787.0 cm^-1
4f1 ²F_2.5	118797.0 cm^-1
4f1 ²F_3.5	118797.0 cm^-1
5s1 ²S_0.5	126712.0 cm^-1
5p1 ²P_0.5	128369.0 cm^-1
5p1 ²P_1.5	128369.0 cm^-1
5d1 ²D_1.5	128668.0 cm^-1
5d1 ²D_2.5	128668.0 cm^-1
5f1 ²F_2.5	128673.0 cm^-1
5f1 ²F_3.5	128673.0 cm^-1
5g1 ²G_3.5	128673.0 cm^-1
5g1 ²G_4.5	128673.0 cm^-1
1s1 2s2 ²S_0.5	935812.0 cm^-1
1s1 2s1 2p1 ⁴P_0.5	952984.0 cm^-1
1s1 2s1 2p1 ⁴P_1.5	952986.0 cm^-1
1s1 2s1 2p1 ⁴P_2.5	952990.0 cm^-1
1s1 2s1 2p1 ²P_0.5	971229.0 cm^-1
1s1 2s1 2p1 ²P_1.5	971233.0 cm^-1
1s1 2s1 2p1 ²P_0.5	996947.0 cm^-1
1s1 2s1 2p1 ²P_1.5	996949.0 cm^-1
1s1 2p2 ⁴P_0.5	998148.0 cm^-1
1s1 2p2 ⁴P_1.5	998150.0 cm^-1
1s1 2p2 ⁴P_2.5	998154.0 cm^-1
1s1 2p2 ²P_0.5	1009480.0 cm^-1
1s1 2p2 ²P_1.5	1009480.0 cm^-1
1s1 2p2 ²D_1.5	1009770.0 cm^-1
1s1 2p2 ²D_2.5	1009780.0 cm^-1
1s1 2p2 ²S_0.5	1040700.0 cm^-1
1s1 2s1 3s1 ⁴S_1.5	1051500.0 cm^-1
1s1 2s1 3s1 ²S_0.5	1061490.0 cm^-1
1s1 2s1 3p1 ²P_1.5	1064730.0 cm^-1
1s1 2s1 3p1 ²P_0.5	1064740.0 cm^-1
1s1 2s1 3p1 ⁴P_0.5	1066430.0 cm^-1
1s1 2s1 3p1 ⁴P_1.5	1066430.0 cm^-1
1s1 2s1 3p1 ⁴P_2.5	1066430.0 cm^-1
1s1 2s1 3d1 ⁴D_0.5	1070500.0 cm^-1
1s1 2s1 3d1 ⁴D_1.5	1070500.0 cm^-1
1s1 2s1 3d1 ⁴D_2.5	1070500.0 cm^-1
1s1 2s1 3d1 ⁴D_3.5	1070500.0 cm^-1
1s1 2s1 3s1 ²S_0.5	1072330.0 cm^-1
1s1 2s1 3d1 ²D_2.5	1074910.0 cm^-1
1s1 2s1 3d1 ²D_1.5	1074910.0 cm^-1
1s1 2s1 3p1 ²P_0.5	1081220.0 cm^-1
1s1 2s1 3p1 ²P_1.5	1081220.0 cm^-1
1s1 2s1 3d1 ²D_1.5	1087610.0 cm^-1
1s1 2s1 3d1 ²D_2.5	1087610.0 cm^-1
1s1 2s1 4s1 ⁴S_1.5	1089870.0 cm^-1
1s1 2s1 4s1 ²S_0.5	1091590.0 cm^-1
1s1 2s1 4p1 ⁴P_0.5	1093100.0 cm^-1
1s1 2s1 4p1 ⁴P_1.5	1093100.0 cm^-1
1s1 2s1 4p1 ⁴P_2.5	1093100.0 cm^-1
1s1 2s1 4p1 ²P_1.5	1093240.0 cm^-1
1s1 2s1 4p1 ²P_0.5	1093240.0 cm^-1
1s1 2p1 3s1 ⁴P_0.5	1095010.0 cm^-1
1s1 2p1 3s1 ⁴P_1.5	1095010.0 cm^-1
1s1 2p1 3s1 ⁴P_2.5	1095020.0 cm^-1
1s1 2s1 4f1 ⁴F_1.5	1095250.0 cm^-1
1s1 2s1 4f1 ⁴F_2.5	1095250.0 cm^-1
1s1 2s1 4f1 ⁴F_3.5	1095250.0 cm^-1
1s1 2s1 4f1 ⁴F_4.5	1095250.0 cm^-1
1s1 2s1 4d1 ⁴D_0.5	1095430.0 cm^-1
1s1 2s1 4d1 ⁴D_1.5	1095430.0 cm^-1
1s1 2s1 4d1 ⁴D_2.5	1095430.0 cm^-1
1s1 2s1 4d1 ⁴D_3.5	1095430.0 cm^-1
1s1 2s1 4f1 ²F_2.5	1095610.0 cm^-1
1s1 2s1 4f1 ²F_3.5	1095610.0 cm^-1
1s1 2p1 3p1 ²P_0.5	1095980.0 cm^-1
1s1 2p1 3p1 ²P_1.5	1095980.0 cm^-1
1s1 2p1 3p1 ⁴D_0.5	1096550.0 cm^-1
1s1 2p1 3p1 ⁴D_1.5	1096550.0 cm^-1
1s1 2p1 3p1 ⁴D_2.5	1096550.0 cm^-1
1s1 2p1 3p1 ⁴D_3.5	1096560.0 cm^-1
1s1 2s1 4d1 ²D_2.5	1097130.0 cm^-1
1s1 2s1 4d1 ²D_1.5	1097130.0 cm^-1
1s1 2p1 3s1 ²P_0.5	1100170.0 cm^-1
1s1 2p1 3s1 ²P_1.5	1100170.0 cm^-1
1s1 2p1 3p1 ⁴S_1.5	1100390.0 cm^-1
1s1 2p1 3p1 ²D_1.5	1102920.0 cm^-1
1s1 2p1 3p1 ²D_2.5	1102930.0 cm^-1
1s1 2p1 3s1 ²P_1.5	1104160.0 cm^-1
1s1 2p1 3s1 ²P_0.5	1104170.0 cm^-1
1s1 2p1 3d1 ²D_1.5	1104330.0 cm^-1
1s1 2p1 3d1 ²D_2.5	1104330.0 cm^-1
1s1 2p1 3d1 ⁴F_1.5	1104940.0 cm^-1
1s1 2p1 3d1 ⁴F_2.5	1104940.0 cm^-1
1s1 2p1 3d1 ⁴F_3.5	1104940.0 cm^-1
1s1 2p1 3d1 ⁴F_4.5	1104940.0 cm^-1
1s1 2s1 4s1 ²S_0.5	1105620.0 cm^-1
1s1 2p1 3d1 ²F_2.5	1106960.0 cm^-1
1s1 2p1 3d1 ²F_3.5	1106960.0 cm^-1
1s1 2p1 3p1 ²S_0.5	1107560.0 cm^-1
1s1 2p1 3d1 ⁴D_0.5	1108600.0 cm^-1
1s1 2p1 3d1 ⁴D_1.5	1108600.0 cm^-1
1s1 2p1 3d1 ⁴D_2.5	1108600.0 cm^-1
1s1 2p1 3d1 ⁴D_3.5	1108600.0 cm^-1
1s1 2p1 3p1 ⁴P_0.5	1109010.0 cm^-1
1s1 2p1 3p1 ⁴P_1.5	1109010.0 cm^-1
1s1 2p1 3p1 ⁴P_2.5	1109010.0 cm^-1
1s1 2s1 4p1 ²P_0.5	1109820.0 cm^-1
1s1 2s1 4p1 ²P_1.5	1109820.0 cm^-1
1s1 2p1 3d1 ⁴P_2.5	1110560.0 cm^-1
1s1 2p1 3d1 ⁴P_1.5	1110560.0 cm^-1
1s1 2p1 3d1 ⁴P_0.5	1110560.0 cm^-1
1s1 2s1 4d1 ²D_1.5	1111640.0 cm^-1
1s1 2s1 4d1 ²D_2.5	1111640.0 cm^-1
1s1 2s1 4f1 ²F_2.5	1112480.0 cm^-1
1s1 2s1 4f1 ²F_3.5	1112480.0 cm^-1
1s1 2p1 3p1 ²P_0.5	1114020.0 cm^-1
1s1 2p1 3p1 ²P_1.5	1114030.0 cm^-1
1s1 2p1 3d1 ²D_1.5	1114170.0 cm^-1
1s1 2p1 3d1 ²D_2.5	1114180.0 cm^-1
1s1 2p1 3d1 ²P_1.5	1114570.0 cm^-1
1s1 2p1 3d1 ²P_0.5	1114570.0 cm^-1
1s1 2p1 3p1 ²D_2.5	1114640.0 cm^-1
1s1 2p1 3p1 ²D_1.5	1114640.0 cm^-1
1s1 2p1 3d1 ²F_3.5	1120170.0 cm^-1
1s1 2p1 3d1 ²F_2.5	1120180.0 cm^-1
1s1 2p1 3p1 ²S_0.5	1120790.0 cm^-1
1s1 2p1 3d1 ²P_0.5	1121970.0 cm^-1
1s1 2p1 3d1 ²P_1.5	1121970.0 cm^-1
1s1 2p1 4s1 ⁴P_0.5	1126700.0 cm^-1
1s1 2p1 4s1 ⁴P_1.5	1126700.0 cm^-1
1s1 2p1 4s1 ⁴P_2.5	1126700.0 cm^-1
1s1 2p1 4s1 ²P_0.5	1128380.0 cm^-1
1s1 2p1 4s1 ²P_1.5	1128390.0 cm^-1
1s1 2p1 4p1 ⁴D_0.5	1129420.0 cm^-1
1s1 2p1 4p1 ⁴D_1.5	1129420.0 cm^-1
1s1 2p1 4p1 ⁴D_2.5	1129420.0 cm^-1
1s1 2p1 4p1 ⁴D_3.5	1129420.0 cm^-1
1s1 2p1 4p1 ²P_0.5	1129570.0 cm^-1
1s1 2p1 4p1 ²P_1.5	1129570.0 cm^-1
1s1 2p1 4p1 ⁴S_1.5	1130220.0 cm^-1
1s1 2p1 4d1 ²D_1.5	1130810.0 cm^-1
1s1 2p1 4d1 ²D_2.5	1130810.0 cm^-1
1s1 2p1 4d1 ⁴F_1.5	1130850.0 cm^-1
1s1 2p1 4d1 ⁴F_2.5	1130850.0 cm^-1
1s1 2p1 4d1 ⁴F_3.5	1130850.0 cm^-1
1s1 2p1 4d1 ⁴F_4.5	1130850.0 cm^-1
1s1 2p1 4p1 ⁴P_0.5	1130940.0 cm^-1
1s1 2p1 4p1 ⁴P_1.5	1130940.0 cm^-1
1s1 2p1 4p1 ⁴P_2.5	1130950.0 cm^-1
1s1 2p1 4d1 ⁴D_0.5	1131550.0 cm^-1
1s1 2p1 4d1 ⁴D_1.5	1131550.0 cm^-1
1s1 2p1 4d1 ⁴D_2.5	1131550.0 cm^-1
1s1 2p1 4d1 ⁴D_3.5	1131550.0 cm^-1
1s1 2p1 4p1 ²D_1.5	1131580.0 cm^-1
1s1 2p1 4p1 ²D_2.5	1131590.0 cm^-1
1s1 2p1 4f1 ²F_2.5	1131810.0 cm^-1
1s1 2p1 4f1 ²F_3.5	1131810.0 cm^-1
1s1 2p1 4f1 ⁴F_1.5	1131900.0 cm^-1
1s1 2p1 4f1 ⁴F_2.5	1131900.0 cm^-1
1s1 2p1 4f1 ⁴F_3.5	1131900.0 cm^-1
1s1 2p1 4f1 ⁴F_4.5	1131900.0 cm^-1
1s1 2p1 4d1 ⁴P_2.5	1132190.0 cm^-1
1s1 2p1 4d1 ⁴P_1.5	1132200.0 cm^-1
1s1 2p1 4d1 ⁴P_0.5	1132200.0 cm^-1
1s1 2p1 4f1 ⁴G_2.5	1132610.0 cm^-1
1s1 2p1 4f1 ⁴G_3.5	1132610.0 cm^-1
1s1 2p1 4f1 ⁴G_4.5	1132610.0 cm^-1
1s1 2p1 4f1 ⁴G_5.5	1132620.0 cm^-1
1s1 2p1 4f1 ²G_3.5	1133040.0 cm^-1
1s1 2p1 4f1 ²G_4.5	1133040.0 cm^-1
1s1 2p1 4s1 ²P_0.5	1133350.0 cm^-1
1s1 2p1 4s1 ²P_1.5	1133350.0 cm^-1
1s1 2p1 4d1 ²F_2.5	1133360.0 cm^-1
1s1 2p1 4d1 ²F_3.5	1133360.0 cm^-1
1s1 2p1 4f1 ⁴D_3.5	1133540.0 cm^-1
1s1 2p1 4f1 ⁴D_2.5	1133540.0 cm^-1
1s1 2p1 4f1 ⁴D_1.5	1133540.0 cm^-1
1s1 2p1 4f1 ⁴D_0.5	1133540.0 cm^-1
1s1 2p1 4f1 ²D_2.5	1134100.0 cm^-1
1s1 2p1 4f1 ²D_1.5	1134110.0 cm^-1
1s1 2p1 4p1 ²S_0.5	1134150.0 cm^-1
1s1 2p1 4d1 ²P_1.5	1134960.0 cm^-1
1s1 2p1 4d1 ²P_0.5	1134960.0 cm^-1
1s1 2p1 4p1 ²P_0.5	1136860.0 cm^-1
1s1 2p1 4p1 ²P_1.5	1136860.0 cm^-1
1s1 2p1 4p1 ²D_2.5	1136900.0 cm^-1
1s1 2p1 4p1 ²D_1.5	1136900.0 cm^-1
1s1 2p1 4d1 ²D_1.5	1137650.0 cm^-1
1s1 2p1 4d1 ²D_2.5	1137650.0 cm^-1
1s1 2p1 4f1 ²F_2.5	1138190.0 cm^-1
1s1 2p1 4f1 ²F_3.5	1138190.0 cm^-1
1s1 2p1 4d1 ²F_3.5	1138530.0 cm^-1
1s1 2p1 4d1 ²F_2.5	1138530.0 cm^-1
1s1 2p1 4f1 ²G_4.5	1139090.0 cm^-1
1s1 2p1 4f1 ²G_3.5	1139090.0 cm^-1
1s1 2p1 4p1 ²S_0.5	1139390.0 cm^-1
1s1 2p1 4d1 ²P_0.5	1140120.0 cm^-1
1s1 2p1 4d1 ²P_1.5	1140120.0 cm^-1
1s1 2p1 4f1 ²D_1.5	1140180.0 cm^-1
1s1 2p1 4f1 ²D_2.5	1140180.0 cm^-1

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

        Result of ICFT R-matrix calculation for outer shell excitation
        +++++++++++++++++++++++++++++++++++

 Calculation automated by offline ADAS code ADAS8#3

     Summary Information
     +++++++++++++++++++

 *  Ionisation energy taken from ADAS adf00 files

 *  Energy levels calculated by AUTOSTRUCTURE

 *  Radiative rates calculated by AUTOSTRUCTURE

 *  Effective collision strengths calculated by ICFT
    R-matrix calculation using target structure from
    AUTOSTRUCTURE.

     Calculation details
     +++++++++++++++++++

 The following scaling parameters on bound orbitals were used:

         1S = 1.26220
         2S = 0.95294
         2P = 0.79908
         3S = 0.94457
         3P = 0.79766
         3D = 0.71121
         4S = 0.94335
         4P = 0.79778
         4D = 0.71267
         4F = 0.89615
         5S = 0.94398
         5P = 0.79888
         5D = 0.71498
         5F = 0.69709
         5G = 1.00000

 An exchange calculation was performed up to J=10
 A non-exchange calculation was then performed up to J=40
 Followed by a top-up calculation to J -> infinity.

 70 continuum basis orbitals were used, giving a smallest maximum
 basis-orbital energy of 19.3283 Rydbergs (262.980850 eV)

 A fine energy mesh of 0.000050 Z**2 Rydbergs (0.0006803 eV) was used
 between the first and last thresholds for the excitation calculation.

 A coarse energy mesh of 0.010000 Z**2 Rydbergs (0.13606 eV) was used
 from the last threshold up to 13.384536 Z**2 Rydbergs (182.11 eV) in the
 excitation calculation.

 A coarse energy mesh of 0.010000 Z**2 Rydbergs (0.13606 eV) was used
 from first threshold up to 13.384536 Z**2 Rydbergs (182.11 eV) in the
 non-exchange calculation.

 Dipole and Born limits were used from the last calculated energy points
 up to infinite energy to complete the effective collision strengths

 Produced by: Guiyun Liang
 Date:        15/10/10
------------------------------------------------------------------------
        Result of ICFT R-matrix calculation for core-excitation
   G.Y. Liang, and N.R. Badnell, A&A (2010)
        +++++++++++++++++++++++++++++++++++

 Calculation automated by offline ADAS code ADAS8#3

     Summary Information
     +++++++++++++++++++

 *  Ionisation energy taken from ADAS adf00 files

 *  Energy levels calculated by AUTOSTRUCTURE

 *  Radiative rates calculated by AUTOSTRUCTURE

 *  Effective collision strengths calculated by ICFT
    R-matrix calculation using target structure from
    AUTOSTRUCTURE.

     Calculation details
     +++++++++++++++++++

 The following scaling parameters on bound orbitals were used:

         1S = 1.26184
         2S = 0.95482
         2P = 0.80563
         3S = 0.94614
         3P = 0.79939
         3D = 0.71712
         4S = 0.94575
         4P = 0.80031
         4D = 0.72253
         4F = 0.89290

 An exchange calculation was performed up to J=10
 A non-exchange calculation was then performed up to J=40
 Followed by a top-up calculation to J -> infinity.

 47 continuum basis orbitals were used, giving a smallest maximum
 basis-orbital energy of 17.8404 Rydbergs (242.736482 eV)

 A fine energy mesh of 0.000500 Z**2 Rydbergs (0.006803 eV) was used
 between the first and last thresholds for the excitation calculation.

 A coarse energy mesh of 0.010000 Z**2 Rydbergs (0.13606 eV) was used
 from the last threshold up to 13.384536 Z**2 Rydbergs (182.11 eV) in the
 excitation calculation.

 A coarse energy mesh of 0.010000 Z**2 Rydbergs (0.13606 eV) was used
 from first threshold up to 13.384536 Z**2 Rydbergs (182.11 eV) in the
 non-exchange calculation.

 Dipole and Born limits were used from the last calculated energy points
 up to infinite energy to complete the effective collision strengths

  NIST v4 energy  (Ryd)
  2   0.29095612
  3   0.29101605
  4   0.80402837
  5   0.87933042
  6   0.87934799
  7   0.8935390
  8   0.8935438
  9   1.0521894
 10   1.0822254
 11   1.0822328
 12   1.0882460
 13   1.0882482
 14   1.0884774
 15   1.0884786
 16   1.1603630
 17   1.1752759
 18   1.1752798
 19   1.1783606
 20   1.1783617
 21   1.1784856
 22   1.1784863
 23   1.1785003
 24   1.1785003
 25     8.40188
 26     8.516638
 29     8.72782
 31     8.89214
 33     8.908528
 36     9.04988
 38     8.99758
 40     9.246627
 41     9.4102320
 42     9.468065
 44     9.519096
 45     9.510621
 48     9.5674684
 52     9.644850
 53     9.601110
 55     9.701349
 57     9.782452
 59     9.724878
 61     9.753291
 62     9.765684
 66     9.6967225
 69     9.7778863
 73     9.791765
 80     9.758759
 81     9.753619
 87     9.781541
 89     9.788703
 90     9.806145
 94     9.817262
 96     9.8269763
 103    9.848974
 104    9.8369911
 108    9.7925450
 116    9.820725
 120    9.922787
 122    9.955228
 126    9.905473
 128    9.956504
 133    9.990139
 138    10.01138
 142    10.01391
 144    10.02376
 145    10.03597
 151    10.02501
 154    10.04312
 160    10.04527
 162    10.045407
 179    10.05251

 Produced by: Guiyun Liang
 Date:        05/11/10
------------------------------------------------------------------------

Contributors

Guiyun Liang
Nigel Badnell

Processes
States
Comments
Origins

lilike_lgy10#be1.dat

Resolved Specific Ion Data Collections

ADF04

Contributors

Data Classes

Fundamental

Derived

lilike_lgy10#be1.dat

Resolved Specific Ion Data Collections

ADF04

Contributors

Data Classes

Fundamental

Derived

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