Velocity-selective direct frequency-comb spectroscopy of atomic vapors

Abstract

We present an experimental and theoretical investigation of two-photon direct frequency-comb spectroscopy performed through velocity-selective excitation. In particular, we explore the effect of repetition rate on the 5S1/2→ 5D3/2, 5/2 two-photon transitions excited in a rubidium atomic vapor cell. The transitions occur via step-wise excitation through the 5P1/2, 3/2 states by use of the direct output of an optical frequency comb. Experiments were performed with two different frequency combs, one with a repetition rate of ≈ 925 MHz and one with a repetition rate of ≈ 250 MHz. The experimental spectra are compared to each other and to a theoretical model.