Zero crossings of the differential scalar polarizability of Ba+ clock transition

Abstract

The differential scalar polarizability α0(ω) of the Ba+ S1/2-to-D5/2 clock transition has a zero crossing near 481nm, which is measured to be 623.603\,13(17)\,THz. From this measurement, we infer a ratio of reduced matrix elements P3/2\|r\|S1/2/ P1/2\|r\|S1/2=1.411\,81(13), which provides a stringent test of atomic structure calculations and experimental determination of matrix elements. Additionally, it enables the construction of an accurate approximation to α0(ω), valid for frequencies up to 450\,THz, with only one reduced matrix element, P1/2\|r\|S1/2, appearing in the model's parameterization. We discuss the achievable accuracy of the model, the application to the assessment of blackbody radiation (BBR) shifts in ion-based clocks, and the applicability of the approach to other alkaline-earth ions.

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