Calculation of Dipole Strengths for Magnetic Dipole Transitions in Lanthanide Spectra

Electric dipole strengths calculated with the combined static coupling (SC)/dynamic coupling (DC) intensity model for 4f ~ 4f transitions in lanthanide complexes contain SC/DC cross-term ("interference") contributions which may add to or subtract from the purely static and dynamic contributions. Cal

A priori prediction of vibrational magnetic dipole transition moments and vibrational strengths requires the calculation of the overlap integral of the derivatives of the electronic wavefunction with respect to nuclear displacement and an external magnetic field. The efficient calculation of this in

An extensive dataset of oscillator strengths, line strengths, and Einstein A-coefficients has been calculated for a large number of dipole-allowed (DS Å 0) fine-structure transitions in Si II. The line strengths in LS coupling are obtained in an ab initio manner in the close-coupling approximation e

Oscillator strengths, line strengths, and transition probabilities for fine-structure levels in silicon-like iron, Fe XIII, are reported. The data obtained are for 1223 LS bound terms, 64,456 LS multiplets, and 307,863 fine-structure transitions. Calculations are carried out in LS coupling using the