Frequency Shifts due to Stark Effects on a Rb two-photon transition

Abstract

The 5S1/2→ 5D5/2 two-photon transition in Rb is of interest for the development of a compact optical atomic clock. Here we present a rigorous calculation of the 778.1~nm ac-Stark shift (2.30(4) ×10-13(mW/mm2)-1) that is in good agreement with our measured value of 2.5(2) ×10-13(mW/mm2)-1. We include a calculation of the temperature-dependent blackbody radiation shift, we predict that the clock could be operated either with zero net BBR shift (T=495.9(27)~K) or with zero first-order sensitivity (T=368.1(14)~K). Also described is the calculation of the dc-Stark shift of 5.5(1)× 10-15/(V/cm2) as well as clock sensitivities to optical alignment variations in both a cat's eye and flat mirror retro-reflector. Finally, we characterize these Stark effects discussing mitigation techniques necessary to reduce final clock instabilities.