Abstract
Relative intensities of dielectronic satellite lines determined by radiative transition probabilities and autoionization rates are calculated for transitions 1s2lnl'-1s2nl', 1s2lnl'-1s22l (n = 4-10, l = 0-3) for Li-like ions with Z = 5-54 by using the perturbation theory method (Z-expansion). Relativistic effects are taken into account by the Breit-Pauli operators. It was observed that the relative factor intensity changes very sharply with n and Z due to redistribution between contributions of relativistic and correlation effects.
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