High precision measurement of the hyperfine splitting and ac Stark shift of the 7d 2D3/2 state in atomic cesium

Abstract

We report the measurement of hyperfine splitting in the 7d 2D3/2 state of 133Cs using high resolution Doppler-free two-photon spectroscopy in a Cs vapor cell. We determine the hyperfine coupling constants A = 7.3509(9) MHz and B = -0.041(8) MHz, which represent an order of magnitude improvement in the precision. We also obtain bounds on the magnitude of the nuclear magnetic octupole coupling constant C. Additionally, we measure the ac Stark shift of the 6s 2S1/2 → 7d 2D3/2 transition at 767.8 nm to be -49 5 Hz/(W/cm2), in agreement with theoretical calculations. We further report the measurement of collisional shift [-32.6 2.0 kHz/mTorr] and pressure broadening for the individual hyperfine levels of the 6s 2S1/2 → 7d 2D3/2 transition. These measurements provide valuable inputs for analysis of systematic effects in optical frequency standards based on the cesium 6s 2S1/2 → 7d 2D3/2 two-photon transition