Resolving a discrepancy between experimental and theoretical lifetimes in atomic negative ions

Abstract

Recently the lifetime of the excited 2P1/2-state of S- was measured to be 503 54 s (B\"ackstr\"om et al. Phys. Rev. Lett. 114, 143003 (2015)). The earlier theoretical lifetime of 436 s was clearly outside the experimental error bars. To investigate this discrepancy we have performed systematic and large-scale multiconfiguration Dirac-Hartree-Fock calculations for this system. After including a careful treatment of correlation and relativistic effects, we predict a well-converged value of 492 s for this lifetime, with an uncertainty considerably less than 1%, thereby removing the apparent conflict between theory and experiment. We also show that this result corresponds to the non-relativistic limit in the LS-approximation for the M1 transition within this 2P term. We also demonstrate the usefulness of the latter approach for 2P transitions in O-, Se- and Te-, as well as for analogous M1 transitions within 2D terms in Ni- and Pt- ions.