Abstract
The formulas, which enable us to calculate the electric and magnetic multipole transition probabilities in relativistic approximation under various gauge conditions of the electromagnetic potential, are presented. The numerical values of the coefficients of the one-electron reduced matrix elements of the relativistic operators of the electric and magnetic dipole transitions between the configurations K 0n 2l 2j 2α 0J 0j 2J−K 0n 1l 1j 1α ′ 0J ′ 0j 1J ′ , where K 0 represents any electronic configuration, having the quantum number of the total angular momentum 0 ≤ J 0 ≤ 8 (the step is 1 2 ), and 1 2 ≤ j 2 , j 1 ≤ 7 2 , are given.
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