Doppler-free spectroscopy of the Cs 6S1/2-7P3/2 atomic transition at 456 nm in a nanometric-thick vapor layer

Abstract

The features of Doppler-free resonances detected by probing the 133Cs atom 6S1/2-7P3/2 transition at 456 nm in a nanometric-thick vapor layer are investigated. The matrix element of this transition is about 11 times smaller than that of the Cs D2 line (852 nm). When the vapor layer thickness is = λ/2 230 nm, we observe Dicke narrowing of the lines, accompanied by a red frequency shift of the atomic transitions, which is attributed to atom-surface interactions. Realizing optical pumping with 460 nm in a single-pass configuration, we observe Doppler-free resonances with a linewidth <20 MHz, located at the atomic transitions frequencies with a correspondence of the amplitudes to the transition intensities. These narrow resonances are of interest for high-resolution spectroscopy and instrumentation, and could serve as a frequency reference.