1     1        2s2.2p3  4  0 S  1.5  4          0.000       0.000000          0.000       0.000000
  2     1        2s2.2p3  2  2 D  1.5  4     157492.000       1.435173     159697.686       1.455272
  3     1        2s2.2p3  2  2 D  2.5  6     209346.000       1.907701     212768.942       1.938893
  4     1        2s2.2p3  2  1 P  0.5  2     302546.000       2.757002     301651.214       2.748848
  5     1        2s2.2p3  2  1 P  1.5  4     400145.000       3.646390     400131.430       3.646266
  6     2         2s.2p4  4  1 P  2.5  6     848052.000       7.728019     847123.627       7.719559
  7     2         2s.2p4  4  1 P  1.5  4     942995.000       8.593203     941893.688       8.583167
  8     2         2s.2p4  4  1 P  0.5  2     967967.000       8.820765     967219.559       8.813953
  9     2         2s.2p4  2  2 D  1.5  4    1176025.000      10.716729    1187166.799      10.818260
 10     2         2s.2p4  2  2 D  2.5  6    1203328.000      10.965532    1213379.819      11.057131
 11     2         2s.2p4  2  0 S  0.5  2    1344420.000      12.251257    1355897.901      12.355851
 12     2         2s.2p4  2  1 P  1.5  4    1398836.000      12.747132    1417599.290      12.918116
 13     2         2s.2p4  2  1 P  0.5  2    1536388.000      14.000598    1552455.050      14.147012
 14     3            2p5  2  1 P  1.5  4    2190441.000      19.960768    2218507.444      20.216528
 15     3            2p5  2  1 P  0.5  2    2340780.000      21.330757    2368526.577      21.583603
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%filename: ni_22.elvlc
%Observed energy levels: Edlen, 1984, Phys.Scripta, 30, 135 
%Theoretical energy levels (1- 15): Zhang, Sampson, ADNDT, 1999, 72, 153
% produced as part of the Arcetri/Cambridge/NRL 'CHIANTI' atomic data base collaboration
% 
% G. Del Zanna, May 2001.
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