Abstract
Transition energies and rates in the ${L}_{1}\ensuremath{-}{L}_{23}{M}_{1}$ Coster-Kronig spectrum of argon have been calculated in the intermediate-coupling scheme. Strong mixing of the final ionic states $^{1}P_{1}$ and $^{3}P_{1}$, caused by the spinorbit interaction, virtually removes the large discrepancy between previously calculated relative term intensities and experimental data. Transition energies also agree well.
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