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W2021694841 abstract "Relativistic multireference many-body perturbation theory is generalized to calculate the energies of highly excited levels in multivalence-electron ions of iron group elements responsible for soft-x-ray emission lines. Term energies of the highly excited $n=4$ states arising from the $3{s}^{2}3p4lphantom{rule{0.3em}{0ex}}(l=0--3)$ and $3s3{p}^{2}4lphantom{rule{0.3em}{0ex}}(l=0--3)$ configurations in $mathrm{Fe}phantom{rule{0.3em}{0ex}}text{XIII}$ are computed to high accuracy. Theoretical electric dipole transition probabilities and wavelengths of the transitions to low-lying $n=3$ levels are compared with solar and laboratory lines to identify hitherto unidentified $text{and}∕text{or}$ poorly characterized extreme ultraviolet and soft-x-ray spectral lines. $E1$, $E2$, and $M1$ decay rates and lifetimes of lower excited levels of the $n=3$ manifold are evaluated as a benchmark for future experiments." @default.
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W2021694841 date "2004-06-04" @default.
W2021694841 modified "2023-10-01" @default.
W2021694841 title "Relativistic many-body perturbation calculations on extreme ultraviolet and soft-x-ray transition energies in siliconlike iron" @default.
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W2021694841 doi "https://doi.org/10.1103/physreva.69.062503" @default.
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