Excitation energies, polarizabilities, multipole transition rates, and lifetimes in Th IV
Abstract
Excitation energies of the ns1/2 (n=7-10), npj (n=7-9), ndj (n=6-8), nfj (n=5-7), and ngj (n=5-6) states in Th IV are evaluated. First-, second-, third-, and all-order Coulomb energies and first- and second-order Coulomb-Breit energies are calculated. Reduced matrix elements, oscillator strengths, transition rates, and lifetimes are determined for the 96 possible nlj-n'l'j' electric-dipole transitions. Multipole matrix elements (7s1/2-6dj, 7s1/2-5fj, and 5f5/2-5f7/2) are evaluated to obtain the lifetimes of the 5f7/2 and 7s1/2$ states. Matrix elements are calculated using both relativistic many-body perturbation theory, complete through third order, and a relativistic all-order method restricted to single and double (SD) excitations. Scalar and tensor polarizabilities for the 5f5/2 ground state in Th3+ are calculated using relativistic third-order and all-order methods. These calculations provide a theoretical benchmark for comparison with experiment and theory.
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