chv6_ic#mg7.dat

Resolved Specific Ion Data Collections

Ion: Mg⁷⁺
Temperature Range: 2.757 eV → 2757 eV

ADF04

Filename: chv6_ic#mg7.dat
Full Path: adf04/copch#12/chv6_ic#mg7.dat

Spontaneous Emission: Mg⁺⁷(i) → Mg⁺⁷(j) + hv
Electron Impact Excitation: Mg⁺⁷(i) + e → Mg⁺⁷(j) + e

2s2.2p 2p1/2 ²P_0.5	0.0 cm^-1
2s2.2p 2p3/2 ²P_1.5	3302.0 cm^-1
2s.2p2 4p1/2 ⁴P_0.5	129890.0 cm^-1
2s.2p2 4p3/2 ⁴P_1.5	131030.0 cm^-1
2s.2p2 4p5/2 ⁴P_2.5	132710.0 cm^-1
2s.2p2 2d5/2 ²D_2.5	232274.0 cm^-1
2s.2p2 2d3/2 ²D_1.5	232307.0 cm^-1
2s.2p2 2s1/2 ²S_0.5	298282.0 cm^-1
2s.2p2 2p1/2 ²P_0.5	318721.0 cm^-1
2s.2p2 2p3/2 ²P_1.5	320723.0 cm^-1
2p3 4s3/2 ⁴S_1.5	413610.0 cm^-1
2p3 2d5/2 ²D_2.5	465745.0 cm^-1
2p3 2d3/2 ²D_1.5	465818.0 cm^-1
2p3 2p1/2 ²P_0.5	524652.0 cm^-1
2p3 2p3/2 ²P_1.5	524841.0 cm^-1
2s2.3s 2s1/2 ²S_0.5	1199030.0 cm^-1
2s2(1s).3p 2p1/2 ²P_0.5	1264100.0 cm^-1
2s2(1s).3p 2p3/2 ²P_1.5	1265060.0 cm^-1
2s2.3d 2d3/2 ²D_1.5	1325460.0 cm^-1
2s2.3d 2d5/2 ²D_2.5	1325740.0 cm^-1
2s.2p(3p).3s 4p1/2 ⁴P_0.5	1340690.0 cm^-1
2s.2p(3p).3s 4p3/2 ⁴P_1.5	1341800.0 cm^-1
2s.2p(3p).3s 4p5/2 ⁴P_2.5	1343830.0 cm^-1
2s.2p(3p).3s 2p1/2 ²P_0.5	1371450.0 cm^-1
2s.2p(3p).3s 2p3/2 ²P_1.5	1373690.0 cm^-1
2s.2p(3p).3p 2p1/2 ²P_0.5	1398500.0 cm^-1
2s.2p(3p).3p 2p3/2 ²P_1.5	1399550.0 cm^-1
2s.2p(3p).3p 4d1/2 ⁴D_0.5	1400790.0 cm^-1
2s.2p(3p).3p 4d3/2 ⁴D_1.5	1401300.0 cm^-1
2s.2p(3p).3p 4d5/2 ⁴D_2.5	1402140.0 cm^-1
2s.2p(3p).3p 4d7/2 ⁴D_3.5	1403990.0 cm^-1
2s.2p(3p).3p 4s3/2 ⁴S_1.5	1413280.0 cm^-1
2s.2p(3p).3p 4p1/2 ⁴P_0.5	1420700.0 cm^-1
2s.2p(3p).3p 4p3/2 ⁴P_1.5	1421580.0 cm^-1
2s.2p(3p).3p 4p5/2 ⁴P_2.5	1422580.0 cm^-1
2s.2p(3p).3p 2d3/2 ²D_1.5	1431060.0 cm^-1
2s.2p(3p).3p 2d5/2 ²D_2.5	1433210.0 cm^-1
2s.2p(3p).3p 2s1/2 ²S_0.5	1452320.0 cm^-1
2s.2p(3p).3d 4f3/2 ⁴F_1.5	1453140.0 cm^-1
2s.2p(3p).3d 4f5/2 ⁴F_2.5	1453840.0 cm^-1
2s.2p(3p).3d 4f7/2 ⁴F_3.5	1454900.0 cm^-1
2s.2p(3p).3d 4f9/2 ⁴F_4.5	1456350.0 cm^-1
2s.2p(3p).3d 4d1/2 ⁴D_0.5	1466050.0 cm^-1
2s.2p(3p).3d 4d3/2 ⁴D_1.5	1466190.0 cm^-1
2s.2p(3p).3d 4d5/2 ⁴D_2.5	1466510.0 cm^-1
2s.2p(3p).3d 4d7/2 ⁴D_3.5	1467360.0 cm^-1
2s.2p(3p).3d 2d3/2 ²D_1.5	1467630.0 cm^-1
2s.2p(3p).3d 2d5/2 ²D_2.5	1468030.0 cm^-1
2s.2p(3p).3d 4p5/2 ⁴P_2.5	1472940.0 cm^-1
2s.2p(3p).3d 4p3/2 ⁴P_1.5	1473620.0 cm^-1
2s.2p(3p).3d 4p1/2 ⁴P_0.5	1474070.0 cm^-1
2s.2p(1p).3s 2p3/2 ²P_1.5	1487140.0 cm^-1
2s.2p(1p).3s 2p1/2 ²P_0.5	1487180.0 cm^-1
2s.2p(3p).3d 2f5/2 ²F_2.5	1499700.0 cm^-1
2s.2p(3p).3d 2f7/2 ²F_3.5	1501890.0 cm^-1
2s.2p(3p).3d 2p3/2 ²P_1.5	1504870.0 cm^-1
2s.2p(3p).3d 2p1/2 ²P_0.5	1505910.0 cm^-1
2s.2p(1p).3p 2p1/2 ²P_0.5	1549230.0 cm^-1
2s.2p(1p).3p 2p3/2 ²P_1.5	1549690.0 cm^-1
2s.2p(1p).3p 2d3/2 ²D_1.5	1550380.0 cm^-1
2s.2p(1p).3p 2d5/2 ²D_2.5	1550510.0 cm^-1
2s.2p(1p).3p 2s1/2 ²S_0.5	1566250.0 cm^-1
2p2(3p).3s 4p1/2 ⁴P_0.5	1581900.0 cm^-1
2p2(3p).3s 4p3/2 ⁴P_1.5	1583080.0 cm^-1
2p2(3p).3s 4p5/2 ⁴P_2.5	1584870.0 cm^-1
2s.2p(1p).3d 2f7/2 ²F_3.5	1604850.0 cm^-1
2s.2p(1p).3d 2f5/2 ²F_2.5	1604860.0 cm^-1
2s.2p(1p).3d 2d3/2 ²D_1.5	1610590.0 cm^-1
2s.2p(1p).3d 2d5/2 ²D_2.5	1610890.0 cm^-1
2p2(3p).3s 2p1/2 ²P_0.5	1615820.0 cm^-1
2p2(3p).3s 2p3/2 ²P_1.5	1617850.0 cm^-1
2s.2p(1p).3d 2p1/2 ²P_0.5	1622660.0 cm^-1
2s.2p(1p).3d 2p3/2 ²P_1.5	1622840.0 cm^-1
2p2(3p).3p 2s1/2 ²S_0.5	1624550.0 cm^-1
2p2(3p).3p 4d1/2 ⁴D_0.5	1634310.0 cm^-1
2p2(3p).3p 4d3/2 ⁴D_1.5	1635040.0 cm^-1
2p2(3p).3p 4d5/2 ⁴D_2.5	1636260.0 cm^-1
2p2(3p).3p 4d7/2 ⁴D_3.5	1637920.0 cm^-1
2p2(1d).3s 2d3/2 ²D_1.5	1639680.0 cm^-1
2p2(1d).3s 2d5/2 ²D_2.5	1639710.0 cm^-1
2p2(3p).3p 4p1/2 ⁴P_0.5	1642860.0 cm^-1
2p2(3p).3p 4p3/2 ⁴P_1.5	1643380.0 cm^-1
2p2(3p).3p 4p5/2 ⁴P_2.5	1644490.0 cm^-1
2p2(3p).3p 2d3/2 ²D_1.5	1652100.0 cm^-1
2p2(3p).3p 2d5/2 ²D_2.5	1654360.0 cm^-1
2p2(3p).3p 4s3/2 ⁴S_1.5	1663720.0 cm^-1
2p2(3p).3p 2p3/2 ²P_1.5	1667770.0 cm^-1
2p2(3p).3p 2p1/2 ²P_0.5	1667910.0 cm^-1
2p2(3p).3d 4f3/2 ⁴F_1.5	1683040.0 cm^-1
2p2(3p).3d 4f5/2 ⁴F_2.5	1683720.0 cm^-1
2p2(3p).3d 4f7/2 ⁴F_3.5	1684700.0 cm^-1
2p2(3p).3d 4f9/2 ⁴F_4.5	1685960.0 cm^-1
2p2(1d).3p 2f5/2 ²F_2.5	1693210.0 cm^-1
2p2(1d).3p 2f7/2 ²F_3.5	1693850.0 cm^-1
2p2(3p).3d 2p3/2 ²P_1.5	1693890.0 cm^-1
2p2(3p).3d 4d1/2 ⁴D_0.5	1694610.0 cm^-1
2p2(3p).3d 4d5/2 ⁴D_2.5	1695670.0 cm^-1
2p2(3p).3d 4d3/2 ⁴D_1.5	1695750.0 cm^-1
2p2(3p).3d 4d7/2 ⁴D_3.5	1696220.0 cm^-1
2p2(3p).3d 2p1/2 ²P_0.5	1696790.0 cm^-1
2p2(3p).3d 2f5/2 ²F_2.5	1702850.0 cm^-1
2p2(3p).3d 2f7/2 ²F_3.5	1705310.0 cm^-1
2p2(3p).3d 4p5/2 ⁴P_2.5	1707350.0 cm^-1
2p2(1d).3p 2d5/2 ²D_2.5	1707370.0 cm^-1
2p2(1d).3p 2d3/2 ²D_1.5	1707620.0 cm^-1
2p2(3p).3d 4p3/2 ⁴P_1.5	1708230.0 cm^-1
2p2(3p).3d 4p1/2 ⁴P_0.5	1708700.0 cm^-1
2p2(1d).3p 2p1/2 ²P_0.5	1723780.0 cm^-1
2p2(1d).3p 2p3/2 ²P_1.5	1725040.0 cm^-1
2p2(1s).3s 2s1/2 ²S_0.5	1731110.0 cm^-1
2p2(3p).3d 2d3/2 ²D_1.5	1736260.0 cm^-1
2p2(3p).3d 2d5/2 ²D_2.5	1736560.0 cm^-1
2p2(1d).3d 2g7/2 ²G_3.5	1741330.0 cm^-1
2p2(1d).3d 2g9/2 ²G_4.5	1741550.0 cm^-1
2p2(1d).3d 2d3/2 ²D_1.5	1753390.0 cm^-1
2p2(1d).3d 2d5/2 ²D_2.5	1754110.0 cm^-1
2p2(1d).3d 2f7/2 ²F_3.5	1756660.0 cm^-1
2p2(1d).3d 2f5/2 ²F_2.5	1757370.0 cm^-1
2p2(1d).3d 2p1/2 ²P_0.5	1768100.0 cm^-1
2p2(1d).3d 2p3/2 ²P_1.5	1768760.0 cm^-1
2p2(1d).3d 2s1/2 ²S_0.5	1780830.0 cm^-1
2p2(1s).3p 2p1/2 ²P_0.5	1796950.0 cm^-1
2p2(1s).3p 2p3/2 ²P_1.5	1797280.0 cm^-1
2p2(1s).3d 2d5/2 ²D_2.5	1848430.0 cm^-1
2p2(1s).3d 2d3/2 ²D_1.5	1848820.0 cm^-1

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

  Data generated from CHIANTI version 6.0

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

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

  Energy levels :
   %observed energy levels (n=2): Edlen, B, 1983, Phys. Scripta, 28, 483
   %observed energy levels (n=3): Martin,W.C., Zalubas,R., 1980, J.Phys.Chem.Ref.Data, 9, 1.
   %theoretical energy levels (n=2): Zhang,H.L., Graziani,M., Pradhan,A.K., 1994, A&A, 283, 319.
   %theoretical energy levels (n=3): Sampson and Zhang, 1995, unpublished calculations
   %comment:  energy levels renumbered
   %produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data collaboration
   %
   % K.P.Dere and E.Landi 1999

  A-values levels :
   %filename: mg_8.wgfa
   %observed energy levels (n=2): Edlen, B, 1983, Phys. Scripta, 28, 483
   %observed energy levels (n=3): Martin, W.C., Zalubas, R., 1980, J.Phys.Chem.Ref.Data, 9, 1.
   %oscillator strengths: Dankwort,W., Trefftz,E., 1978, A&A, 65, 93.
   %oscillator strengths: Bhatia,A.K., Feldman,U., Seely,J.F., 1986, ADNDT, 35, 319.
   %oscillator strengths (16- 125): Sampson and Zhang, 1995, unpublished calculations
   %note:  gf and A values for transitions 123-71 and 124-72 are estimates
   % produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   % K.P.Dere and E.Landi 1999

  Collision strengths :

   %filename: mg_8.splups
   %oscillator strengths: Dankwort,W., Trefftz,E., 1978, A&A, 65, 93.
   %oscillator strengths: Bhatia,A.K., Feldman,U., Seely,J.F., 1986, ADNDT, 35, 319
   %oscillator strengths (16 - 125): Sampson and Zhang, 1995, unpublished calculations
   %effective collision strengths (1 - 15): Zhang, H.L., Graziani, M., Pradhan, A.K., 1994, A&A, 283, 319
   %collision strengths (16 - 125): Sampson and Zhang, 1995, unpublished calculations
   %comment: effective collision strengths were provided in the temperature range 3.7 < Log T < 6.4
   % produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
   %
   %  K.P. Dere 1995



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

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

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

  Unphysical A values. Set A=1.0E-30 for following transitions :
     78    92    A =   7.63E+09

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

 Level list :

     1   2   3   4   5   6   7   8   9  10
    11  12  13  14  15  16  17  18  19  20
    21  22  23  24  25  26  27  28  29  30
    31  32  33  34  35  36  37  38  39  40
    41  42  43  44  45  46  47  48  49  50
    51  52  53  54  55  56  57  58  59  60
    61  62  63  64  65  66  67  68  69  70
    71  72  73  74  75  76  77  78  79  80
    81  82  83  84  85  86  87  88  89  90
    91  92  93  94  95  96  97  98  99 100
   101 102 103 104 105 106 107 108 109 110
   111 112 113 114 115 116 117 118 119 120
   121 122 123 124 125

 Original level order :

     1   2   3   4   5   7   6   8   9  10
    11  13  12  14  15  16  73  87  31  50
    74  88 106  75  89  17  32  18  33  51
    65  34  19  35  52  36  53  20  90 107
   119 125  76  91 108 120  92 109 110  93
    77  94  78 111 121  95  79  21  37  38
    54  22  23  39  55 122 112  96 113  24
    40  80  97  81  82  98 114 123  41  56
    83  99 115 100 116 101 102  84  42  57
    66  71 117 124  43  25  58  44  67  26
    59  68  60 118 103  45  27  85 104  28
    46  61  69  72  47  62  70  63  29  48
    30  86 105  64  49

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

 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
Hong Zhang
Douglas Sampson
K P Dere
Martin O'Mullane

Processes
States
Comments
Origins

chv6_ic#mg7.dat

Resolved Specific Ion Data Collections

ADF04

Contributors

Data Classes

Fundamental

Derived

chv6_ic#mg7.dat

Resolved Specific Ion Data Collections

ADF04

Contributors

Data Classes

Fundamental

Derived

Freeform search examples

Select an element from the periodic table

Or specify an element and/or charge