Direct Measurement of the 5s5p\,1P1 5s4d\,1D2 Decay Rate in Strontium

Abstract

We report the first direct experimental determination of the branching ratio of the 5s4d\,1D2 5s5p\,3P2 transition and the decay rate of the 5s5p\,1P1 5s4d\,1D2 transition in neutral strontium. For more than four decades, these quantities lacked an experimental determination independent of theoretical input. We measure the branching ratio to be 0.177(4), significantly lower than the widely cited theoretical value of 0.322 [C. W. Bauschlicher Jr. et al., J. Phys. B 18, 1523 (1985)]. We also determine the decay rate to be 5.3(5)×103\,s-1, consistent with the value reported by Hunter [L. R. Hunter et al., Phys. Rev. Lett. 56, 823 (1986)] but substantially lower than the recent theoretical prediction of 9.25(40)×103\,s-1 [A. Cooper et al., Phys. Rev. X 8, 041055 (2018)]. These measurements provide an experimental benchmark for quantitative modeling of loss processes in laser cooling and single-atom fluorescence detection in optical tweezers with Sr.

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