Thallium 7p lifetimes derived from experimental data and ab initio calculations of scalar polarizabilities

Abstract

Two different theoretical methods have been used to complete a new calculation of polarizability in the thallium 6p1/2, 7s, and 7p1/2 states. The predictions of the two methods agree to within 1% for the 6p1/2 and 7s states and 2% for 7p1/2 state. We find that the theoretical expression for the 6p1/2 - 7s transition polarizability difference is dominated (greater than 90% contribution) by mixing of the 7s state with the 7p1/2 and 7p3/2 states. By comparing the theoretical expression to an existing Stark shift measurement [Doret et al., Phys. Rev. A 66, 052504 (2002)], new, highly-accurate values for the thallium 7p excited-state lifetimes have been extracted. The scalar polarizability of the 7p1/2 state is also computed, anticipating an experimental determination of this quantity, which will then enable a high-precision determination of the 6dj-7pj transition rates and provide a benchmark test of the two theoretical approaches in the near future.