Mo VI J=3/2, 5/2 energy levels, oscillator strengths and Landé g-values
Relativistic configuration interaction calculations have been performed for Mo VI 4p5 4d2 J=5/2 and nf 2F5/2 (n=4–6) wavefunctions. Level energies and E1 oscillator strengths for transitions between these states and the nd2D (n=4–6) states have been obtained. The calculated LS compositions of all 11 levels of 4p5 4d2 J=5/2 have been found to be in good agreement with other designations. While most calculated level energies agree well with the most recent experimental work, large discrepancies in a few (upper) levels do exist. The oscillator strength of all 84 transitions are computed, and 36 of the largest (f > 0.001) are presented here. Most of the oscillator strengths are computed for the first time.
Pan, Lin and Beck, D. R., "Mo VI J=3/2, 5/2 energy levels, oscillator strengths and Landé g-values" (2006). Science and Mathematics Faculty Publications. 158.