Hyperfine induced transitions probabilities from 4f145s5p~3Po0,2 states in Sm-like ions

Abstract

The hyperfine induced 4f145s5p~3Po0,2~-~4f145s2~1S0 transition probabilities for highly charged Sm-like ions are calculated in the framework of the multi-configuration Dirac-Hartree-Fock method. Electron correlation, the Breit interaction and quantum electrodynamical (QED) effects are taken into account. For ions ranging from Z=79 to Z=94, 4f145s5p~3Po0 is the first excited state, and the hyperfine induced transition is an dominant decay channel. For the 4f145s5p~3Po2 state, the hyperfine induced transition (HIT) rates of Sm-like ions with Z=82-94 are reported as well as the magnetic dipole (M1) 3Po2 ~-~ 3Po1, the electric quadrupole (E2) 3Po2 ~-~ 3Po0,1, and the magnetic quadrupole (M2) 3Po2 ~-~ 1S0 transition probabilities. It is found that M1 transition from the 4f145s5p~3Po2 state is the most important decay channel in this range on Z 82.