Direct frequency-comb spectroscopy of 6S1/2-8S1/2 transitions of atomic cesium

Abstract

Direct frequency-comb spectroscopy is used to probe the absolute frequencies of 6S1/2-8S1/2 two-photon transitions of atomic cesium in hot vapor environment. By utilizing the coherent control method of temporally splitting the laser spectrum above and below the two-photon resonance frequency, Doppler-free absorption is built in two spatially distinct locations and imaged for high-precision spectroscopy. Theoretical analysis finds that these transition lines are measured with uncertainty below 5×10-10, mainly contributed from laser-induced AC Stark shift.