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Saturation effects in the sub-Doppler spectroscopy of Cesium vapor confined in an Extremely Thin Cell

arXiv:0706.0837 · doi:10.1103/PhysRevA.76.013837

Abstract

Saturation effects affecting absorption and fluorescence spectra of an atomic vapor confined in an Extremely Thin Cell (cell thickness $L < 1 μm$) are investigated experimentally and theoretically. The study is performed on the $D_{2}$ line ($λ~= ~852 nm)$ of $Cs$ and concentrates on the two situations $L = λ/2$ and $L =λ$, the most contrasted ones with respect to the length dependence of the coherent Dicke narrowing. For $L = λ/2$, the Dicke-narrowed absorption profile simply broadens and saturates in amplitude when increasing the light intensity, while for $L =λ$, sub-Doppler dips of reduced absorption at line-center appear on the broad absorption profile. For a fluorescence detection at $L =λ$, saturation induces narrow dips, but only for hyperfine components undergoing a population loss through optical pumping. These experimental results are interpreted with the help of the various existing models, and are compared with numerical calculations based upon a two-level modelling that considers both a closed and an open system.

11 pages, 12 figures