3 591 3.23e+13 2s.2p2 4P0.5 - 1s.2s2.2p3 5S2.0 5 591 7.91e+13 2s.2p2 4P2.5 - 1s.2s2.2p3 5S2.0 6 591 4.76e+11 2s.2p2 2D1.5 - 1s.2s2.2p3 5S2.0 4 591 5.31e+13 2s.2p2 4P1.5 - 1s.2s2.2p3 5S2.0 10 591 7.04e+11 2s.2p2 2P1.5 - 1s.2s2.2p3 5S2.0 9 591 3.29e+10 2s.2p2 2S0.5 - 1s.2s2.2p3 5S2.0 12 591 1.30e+13 2p3 2D1.5 - 1s.2s2.2p3 5S2.0 14 591 1.93e+10 2p3 2P0.5 - 1s.2s2.2p3 5S2.0 11 591 2.97e+15 2p3 4S1.5 - 1s.2s2.2p3 5S2.0 2 591 6.78e+13 2s2.2p 2P1.5 - 1s.2s2.2p3 5S2.0 8 591 1.09e+12 2s.2p2 2P0.5 - 1s.2s2.2p3 5S2.0 7 591 1.01e+11 2s.2p2 2D2.5 - 1s.2s2.2p3 5S2.0 15 591 1.01e+10 2p3 2P1.5 - 1s.2s2.2p3 5S2.0 13 591 1.54e+12 2p3 2D2.5 - 1s.2s2.2p3 5S2.0 1 591 6.66e+12 2s2.2p 2P0.5 - 1s.2s2.2p3 5S2.0 3 592 7.22e+12 2s.2p2 4P0.5 - 1s.2s2.2p3 3D1.0 5 592 7.38e+12 2s.2p2 4P2.5 - 1s.2s2.2p3 3D1.0 6 592 4.95e+13 2s.2p2 2D1.5 - 1s.2s2.2p3 3D1.0 4 592 2.67e+12 2s.2p2 4P1.5 - 1s.2s2.2p3 3D1.0 10 592 1.74e+12 2s.2p2 2P1.5 - 1s.2s2.2p3 3D1.0 9 592 8.35e+12 2s.2p2 2S0.5 - 1s.2s2.2p3 3D1.0 12 592 1.89e+15 2p3 2D1.5 - 1s.2s2.2p3 3D1.0 14 592 1.17e+14 2p3 2P0.5 - 1s.2s2.2p3 3D1.0 11 592 7.69e+14 2p3 4S1.5 - 1s.2s2.2p3 3D1.0 2 592 2.12e+14 2s2.2p 2P1.5 - 1s.2s2.2p3 3D1.0 8 592 3.85e+13 2s.2p2 2P0.5 - 1s.2s2.2p3 3D1.0 7 592 1.30e+13 2s.2p2 2D2.5 - 1s.2s2.2p3 3D1.0 15 592 6.89e+12 2p3 2P1.5 - 1s.2s2.2p3 3D1.0 13 592 9.81e+11 2p3 2D2.5 - 1s.2s2.2p3 3D1.0 1 592 1.37e+14 2s2.2p 2P0.5 - 1s.2s2.2p3 3D1.0 3 593 1.71e+12 2s.2p2 4P0.5 - 1s.2s2.2p3 3D2.0 5 593 1.30e+12 2s.2p2 4P2.5 - 1s.2s2.2p3 3D2.0 6 593 2.56e+13 2s.2p2 2D1.5 - 1s.2s2.2p3 3D2.0 4 593 1.79e+13 2s.2p2 4P1.5 - 1s.2s2.2p3 3D2.0 10 593 6.46e+12 2s.2p2 2P1.5 - 1s.2s2.2p3 3D2.0 9 593 3.47e+12 2s.2p2 2S0.5 - 1s.2s2.2p3 3D2.0 12 593 2.22e+15 2p3 2D1.5 - 1s.2s2.2p3 3D2.0 14 593 1.09e+12 2p3 2P0.5 - 1s.2s2.2p3 3D2.0 11 593 3.17e+12 2p3 4S1.5 - 1s.2s2.2p3 3D2.0 2 593 1.97e+14 2s2.2p 2P1.5 - 1s.2s2.2p3 3D2.0 8 593 3.67e+13 2s.2p2 2P0.5 - 1s.2s2.2p3 3D2.0 7 593 4.81e+13 2s.2p2 2D2.5 - 1s.2s2.2p3 3D2.0 15 593 5.82e+13 2p3 2P1.5 - 1s.2s2.2p3 3D2.0 13 593 5.89e+14 2p3 2D2.5 - 1s.2s2.2p3 3D2.0 1 593 1.05e+14 2s2.2p 2P0.5 - 1s.2s2.2p3 3D2.0 3 594 2.36e+09 2s.2p2 4P0.5 - 1s.2s2.2p3 3D3.0 5 594 1.97e+13 2s.2p2 4P2.5 - 1s.2s2.2p3 3D3.0 6 594 1.44e+13 2s.2p2 2D1.5 - 1s.2s2.2p3 3D3.0 4 594 1.80e+12 2s.2p2 4P1.5 - 1s.2s2.2p3 3D3.0 10 594 3.37e+13 2s.2p2 2P1.5 - 1s.2s2.2p3 3D3.0 9 594 1.86e+08 2s.2p2 2S0.5 - 1s.2s2.2p3 3D3.0 12 594 5.02e+11 2p3 2D1.5 - 1s.2s2.2p3 3D3.0 14 594 7.56e+11 2p3 2P0.5 - 1s.2s2.2p3 3D3.0 11 594 3.81e+11 2p3 4S1.5 - 1s.2s2.2p3 3D3.0 2 594 1.28e+14 2s2.2p 2P1.5 - 1s.2s2.2p3 3D3.0 8 594 3.63e+08 2s.2p2 2P0.5 - 1s.2s2.2p3 3D3.0 7 594 7.22e+13 2s.2p2 2D2.5 - 1s.2s2.2p3 3D3.0 15 594 2.31e+12 2p3 2P1.5 - 1s.2s2.2p3 3D3.0 13 594 2.88e+15 2p3 2D2.5 - 1s.2s2.2p3 3D3.0 1 594 3.68e+13 2s2.2p 2P0.5 - 1s.2s2.2p3 3D3.0 3 595 4.34e+12 2s.2p2 4P0.5 - 1s.2s2.2p3 3S1.0 5 595 1.58e+13 2s.2p2 4P2.5 - 1s.2s2.2p3 3S1.0 6 595 2.50e+13 2s.2p2 2D1.5 - 1s.2s2.2p3 3S1.0 4 595 3.70e+12 2s.2p2 4P1.5 - 1s.2s2.2p3 3S1.0 10 595 2.89e+13 2s.2p2 2P1.5 - 1s.2s2.2p3 3S1.0 9 595 5.58e+12 2s.2p2 2S0.5 - 1s.2s2.2p3 3S1.0 12 595 9.00e+14 2p3 2D1.5 - 1s.2s2.2p3 3S1.0 14 595 1.58e+14 2p3 2P0.5 - 1s.2s2.2p3 3S1.0 11 595 1.35e+15 2p3 4S1.5 - 1s.2s2.2p3 3S1.0 2 595 9.55e+13 2s2.2p 2P1.5 - 1s.2s2.2p3 3S1.0 8 595 6.46e+12 2s.2p2 2P0.5 - 1s.2s2.2p3 3S1.0 7 595 1.45e+12 2s.2p2 2D2.5 - 1s.2s2.2p3 3S1.0 15 595 2.45e+14 2p3 2P1.5 - 1s.2s2.2p3 3S1.0 13 595 4.26e+11 2p3 2D2.5 - 1s.2s2.2p3 3S1.0 1 595 4.39e+13 2s2.2p 2P0.5 - 1s.2s2.2p3 3S1.0 3 597 4.33e+11 2s.2p2 4P0.5 - 1s.2s2.2p3 3P0.0 5 597 2.24e+08 2s.2p2 4P2.5 - 1s.2s2.2p3 3P0.0 6 597 5.21e+13 2s.2p2 2D1.5 - 1s.2s2.2p3 3P0.0 4 597 1.35e+13 2s.2p2 4P1.5 - 1s.2s2.2p3 3P0.0 10 597 5.92e+12 2s.2p2 2P1.5 - 1s.2s2.2p3 3P0.0 9 597 6.67e+13 2s.2p2 2S0.5 - 1s.2s2.2p3 3P0.0 12 597 3.34e+12 2p3 2D1.5 - 1s.2s2.2p3 3P0.0 14 597 2.87e+15 2p3 2P0.5 - 1s.2s2.2p3 3P0.0 11 597 1.72e+11 2p3 4S1.5 - 1s.2s2.2p3 3P0.0 2 597 9.34e+13 2s2.2p 2P1.5 - 1s.2s2.2p3 3P0.0 8 597 3.84e+10 2s.2p2 2P0.5 - 1s.2s2.2p3 3P0.0 7 597 3.78e+09 2s.2p2 2D2.5 - 1s.2s2.2p3 3P0.0 15 597 5.27e+11 2p3 2P1.5 - 1s.2s2.2p3 3P0.0 13 597 2.40e+12 2p3 2D2.5 - 1s.2s2.2p3 3P0.0 1 597 6.32e+14 2s2.2p 2P0.5 - 1s.2s2.2p3 3P0.0 3 596 4.42e+09 2s.2p2 4P0.5 - 1s.2s2.2p3 3P2.0 5 596 5.71e+12 2s.2p2 4P2.5 - 1s.2s2.2p3 3P2.0 6 596 1.55e+13 2s.2p2 2D1.5 - 1s.2s2.2p3 3P2.0 4 596 1.22e+11 2s.2p2 4P1.5 - 1s.2s2.2p3 3P2.0 10 596 5.04e+13 2s.2p2 2P1.5 - 1s.2s2.2p3 3P2.0 9 596 2.03e+12 2s.2p2 2S0.5 - 1s.2s2.2p3 3P2.0 12 596 1.77e+14 2p3 2D1.5 - 1s.2s2.2p3 3P2.0 14 596 4.12e+11 2p3 2P0.5 - 1s.2s2.2p3 3P2.0 11 596 7.12e+11 2p3 4S1.5 - 1s.2s2.2p3 3P2.0 2 596 3.93e+14 2s2.2p 2P1.5 - 1s.2s2.2p3 3P2.0 8 596 2.16e+13 2s.2p2 2P0.5 - 1s.2s2.2p3 3P2.0 7 596 2.84e+13 2s.2p2 2D2.5 - 1s.2s2.2p3 3P2.0 15 596 1.18e+15 2p3 2P1.5 - 1s.2s2.2p3 3P2.0 13 596 1.45e+15 2p3 2D2.5 - 1s.2s2.2p3 3P2.0 1 596 3.93e+13 2s2.2p 2P0.5 - 1s.2s2.2p3 3P2.0 3 598 4.24e+12 2s.2p2 4P0.5 - 1s.2s2.2p3 3P1.0 5 598 6.46e+11 2s.2p2 4P2.5 - 1s.2s2.2p3 3P1.0 6 598 3.04e+13 2s.2p2 2D1.5 - 1s.2s2.2p3 3P1.0 4 598 7.27e+12 2s.2p2 4P1.5 - 1s.2s2.2p3 3P1.0 10 598 2.51e+12 2s.2p2 2P1.5 - 1s.2s2.2p3 3P1.0 9 598 6.09e+13 2s.2p2 2S0.5 - 1s.2s2.2p3 3P1.0 12 598 3.89e+12 2p3 2D1.5 - 1s.2s2.2p3 3P1.0 14 598 2.12e+15 2p3 2P0.5 - 1s.2s2.2p3 3P1.0 11 598 3.51e+14 2p3 4S1.5 - 1s.2s2.2p3 3P1.0 2 598 9.97e+13 2s2.2p 2P1.5 - 1s.2s2.2p3 3P1.0 8 598 6.63e+12 2s.2p2 2P0.5 - 1s.2s2.2p3 3P1.0 7 598 4.79e+12 2s.2p2 2D2.5 - 1s.2s2.2p3 3P1.0 15 598 3.06e+14 2p3 2P1.5 - 1s.2s2.2p3 3P1.0 13 598 2.08e+12 2p3 2D2.5 - 1s.2s2.2p3 3P1.0 1 598 4.68e+14 2s2.2p 2P0.5 - 1s.2s2.2p3 3P1.0 3 599 7.20e+07 2s.2p2 4P0.5 - 1s.2s2.2p3 1D2.0 5 599 3.65e+12 2s.2p2 4P2.5 - 1s.2s2.2p3 1D2.0 6 599 4.13e+12 2s.2p2 2D1.5 - 1s.2s2.2p3 1D2.0 4 599 1.34e+11 2s.2p2 4P1.5 - 1s.2s2.2p3 1D2.0 10 599 6.09e+13 2s.2p2 2P1.5 - 1s.2s2.2p3 1D2.0 9 599 2.45e+13 2s.2p2 2S0.5 - 1s.2s2.2p3 1D2.0 12 599 3.80e+14 2p3 2D1.5 - 1s.2s2.2p3 1D2.0 14 599 1.16e+12 2p3 2P0.5 - 1s.2s2.2p3 1D2.0 11 599 5.17e+12 2p3 4S1.5 - 1s.2s2.2p3 1D2.0 2 599 3.05e+14 2s2.2p 2P1.5 - 1s.2s2.2p3 1D2.0 8 599 5.18e+11 2s.2p2 2P0.5 - 1s.2s2.2p3 1D2.0 7 599 9.80e+12 2s.2p2 2D2.5 - 1s.2s2.2p3 1D2.0 15 599 1.65e+15 2p3 2P1.5 - 1s.2s2.2p3 1D2.0 13 599 6.96e+14 2p3 2D2.5 - 1s.2s2.2p3 1D2.0 1 599 1.56e+13 2s2.2p 2P0.5 - 1s.2s2.2p3 1D2.0 3 600 2.36e+11 2s.2p2 4P0.5 - 1s.2s2.2p3 1P1.0 5 600 5.09e+11 2s.2p2 4P2.5 - 1s.2s2.2p3 1P1.0 6 600 1.86e+12 2s.2p2 2D1.5 - 1s.2s2.2p3 1P1.0 4 600 1.60e+12 2s.2p2 4P1.5 - 1s.2s2.2p3 1P1.0 10 600 7.43e+13 2s.2p2 2P1.5 - 1s.2s2.2p3 1P1.0 9 600 1.29e+12 2s.2p2 2S0.5 - 1s.2s2.2p3 1P1.0 12 600 2.97e+13 2p3 2D1.5 - 1s.2s2.2p3 1P1.0 14 600 3.91e+14 2p3 2P0.5 - 1s.2s2.2p3 1P1.0 11 600 4.57e+13 2p3 4S1.5 - 1s.2s2.2p3 1P1.0 2 600 4.83e+14 2s2.2p 2P1.5 - 1s.2s2.2p3 1P1.0 8 600 6.72e+12 2s.2p2 2P0.5 - 1s.2s2.2p3 1P1.0 7 600 3.34e+11 2s.2p2 2D2.5 - 1s.2s2.2p3 1P1.0 15 600 2.20e+15 2p3 2P1.5 - 1s.2s2.2p3 1P1.0 13 600 3.98e+12 2p3 2D2.5 - 1s.2s2.2p3 1P1.0 1 600 9.64e+13 2s2.2p 2P0.5 - 1s.2s2.2p3 1P1.0 3 617 7.83e+10 2s.2p2 4P0.5 - 1s.2p5 3P2.0 5 617 2.24e+11 2s.2p2 4P2.5 - 1s.2p5 3P2.0 6 617 3.38e+10 2s.2p2 2D1.5 - 1s.2p5 3P2.0 4 617 9.60e+10 2s.2p2 4P1.5 - 1s.2p5 3P2.0 10 617 1.09e+12 2s.2p2 2P1.5 - 1s.2p5 3P2.0 9 617 2.35e+11 2s.2p2 2S0.5 - 1s.2p5 3P2.0 12 617 1.43e+14 2p3 2D1.5 - 1s.2p5 3P2.0 14 617 4.73e+13 2p3 2P0.5 - 1s.2p5 3P2.0 11 617 2.75e+13 2p3 4S1.5 - 1s.2p5 3P2.0 2 617 4.57e+11 2s2.2p 2P1.5 - 1s.2p5 3P2.0 8 617 7.69e+11 2s.2p2 2P0.5 - 1s.2p5 3P2.0 7 617 1.10e+12 2s.2p2 2D2.5 - 1s.2p5 3P2.0 15 617 1.85e+14 2p3 2P1.5 - 1s.2p5 3P2.0 13 617 1.94e+14 2p3 2D2.5 - 1s.2p5 3P2.0 1 617 3.69e+07 2s2.2p 2P0.5 - 1s.2p5 3P2.0 3 618 6.49e+10 2s.2p2 4P0.5 - 1s.2p5 3P1.0 5 618 1.82e+11 2s.2p2 4P2.5 - 1s.2p5 3P1.0 6 618 6.31e+11 2s.2p2 2D1.5 - 1s.2p5 3P1.0 4 618 4.95e+10 2s.2p2 4P1.5 - 1s.2p5 3P1.0 10 618 1.03e+12 2s.2p2 2P1.5 - 1s.2p5 3P1.0 9 618 5.59e+11 2s.2p2 2S0.5 - 1s.2p5 3P1.0 12 618 1.21e+14 2p3 2D1.5 - 1s.2p5 3P1.0 14 618 9.91e+13 2p3 2P0.5 - 1s.2p5 3P1.0 11 618 1.98e+13 2p3 4S1.5 - 1s.2p5 3P1.0 2 618 3.28e+11 2s2.2p 2P1.5 - 1s.2p5 3P1.0 8 618 4.94e+11 2s.2p2 2P0.5 - 1s.2p5 3P1.0 7 618 2.19e+11 2s.2p2 2D2.5 - 1s.2p5 3P1.0 15 618 1.84e+14 2p3 2P1.5 - 1s.2p5 3P1.0 13 618 1.71e+14 2p3 2D2.5 - 1s.2p5 3P1.0 1 618 8.10e+10 2s2.2p 2P0.5 - 1s.2p5 3P1.0 3 619 1.01e+10 2s.2p2 4P0.5 - 1s.2p5 3P0.0 5 619 5.53e+07 2s.2p2 4P2.5 - 1s.2p5 3P0.0 6 619 1.14e+12 2s.2p2 2D1.5 - 1s.2p5 3P0.0 4 619 3.01e+11 2s.2p2 4P1.5 - 1s.2p5 3P0.0 10 619 1.30e+11 2s.2p2 2P1.5 - 1s.2p5 3P0.0 9 619 1.45e+12 2s.2p2 2S0.5 - 1s.2p5 3P0.0 12 619 6.73e+13 2p3 2D1.5 - 1s.2p5 3P0.0 14 619 2.25e+14 2p3 2P0.5 - 1s.2p5 3P0.0 11 619 8.51e+11 2p3 4S1.5 - 1s.2p5 3P0.0 2 619 4.18e+08 2s2.2p 2P1.5 - 1s.2p5 3P0.0 8 619 7.01e+08 2s.2p2 2P0.5 - 1s.2p5 3P0.0 7 619 9.28e+08 2s.2p2 2D2.5 - 1s.2p5 3P0.0 15 619 1.94e+14 2p3 2P1.5 - 1s.2p5 3P0.0 13 619 1.11e+14 2p3 2D2.5 - 1s.2p5 3P0.0 1 619 2.96e+11 2s2.2p 2P0.5 - 1s.2p5 3P0.0 3 620 5.45e+14 2s.2p2 4P0.5 - 1s.2p5 1P1.0 5 620 1.11e+15 2s.2p2 4P2.5 - 1s.2p5 1P1.0 6 620 1.03e+15 2s.2p2 2D1.5 - 1s.2p5 1P1.0 4 620 7.15e+14 2s.2p2 4P1.5 - 1s.2p5 1P1.0 10 620 1.01e+15 2s.2p2 2P1.5 - 1s.2p5 1P1.0 9 620 1.24e+15 2s.2p2 2S0.5 - 1s.2p5 1P1.0 12 620 3.97e+14 2p3 2D1.5 - 1s.2p5 1P1.0 14 620 3.94e+14 2p3 2P0.5 - 1s.2p5 1P1.0 11 620 3.08e+14 2p3 4S1.5 - 1s.2p5 1P1.0 2 620 9.27e+12 2s2.2p 2P1.5 - 1s.2p5 1P1.0 8 620 1.06e+15 2s.2p2 2P0.5 - 1s.2p5 1P1.0 7 620 1.23e+15 2s.2p2 2D2.5 - 1s.2p5 1P1.0 15 620 6.07e+14 2p3 2P1.5 - 1s.2p5 1P1.0 13 620 4.59e+14 2p3 2D2.5 - 1s.2p5 1P1.0 1 620 5.02e+12 2s2.2p 2P0.5 - 1s.2p5 1P1.0 -1 %filename: fe_21.auto Theoretical energy levels and autoionization rates: Autostructure calculation A Breit-Pauli distorted wave implementation for AUTOSTRUCTURE Badnell, N.R., 2011, Computer Physics Communications, 182, 1528 ADSref: http://adsabs.harvard.edu/abs/2011CoPhC.182.1528B Autostructure calculation optimized with 'SHFTIC' file using energy corrections from the following sources: Observed energy levels: Kramida, A., Ralchenko, Yu., Reader, J., and NIST ASD Team (2012). NIST Atomic Spectra Database (ver. 5.0), [Online]. Available: http://physics.nist.gov/asd [2012, September 14]. National Institute of Standards and Technology, Gaithersburg, MD. energy levels 592 and 595 Rudolph, J. K.; Bernitt, S.; Epp, S. W.; Steinbrugge, R.; Beilmann, C.; Brown, G. V.; Eberle, S.; Graf, A.; Harman, Z.; Hell, N.; Leutenegger, M.; Mueller, A.; Schlage, K.; Wille, H.-C.; Yavas, H.; Ullrich, J.; Crespo Lopez-Urrutia, J. R. X-Ray Resonant Photoexcitation: Linewidths and Energies of K-alpha Transitions in Highly Charged Fe Ions Physical Review Letters, vol. 111, Issue 10, id. 103002 DOI: 10.1103/PhysRevLett.111.103002 adsRef: http://adsabs.harvard.edu/abs/2013PhRvL.111j3002R levels 596 and 597 switched to agree with V8 data produced as a part of the 'CHIANTI' atomic database for astrophysical spectroscopy K. Dere (GMU) - 2018 January 08 %comment: Fixed text problem in comments. No change to data. Peter Young, 25-Jul-2019