9 research outputs found

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

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    Saturation effects affecting absorption and fluorescence spectra of an atomic vapor confined in an Extremely Thin Cell (cell thickness L<1μmL < 1 \mu m) are investigated experimentally and theoretically. The study is performed on the D2D_{2} line (λ = 852nm)\lambda ~= ~852 nm) of CsCs and concentrates on the two situations L=λ/2L = \lambda /2 and L=λL =\lambda, the most contrasted ones with respect to the length dependence of the coherent Dicke narrowing. For L=λ/2L = \lambda /2, the Dicke-narrowed absorption profile simply broadens and saturates in amplitude when increasing the light intensity, while for L=λL =\lambda, sub-Doppler dips of reduced absorption at line-center appear on the broad absorption profile. For a fluorescence detection at L=λL =\lambda, 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.Comment: 11 pages, 12 figure

    Sub-Doppler spectroscopy of Rb atoms in a sub-micron vapor cell in the presence of a magnetic field

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    We report the first use of an extremely thin vapor cell (thickness ~ 400 nm) to study the magnetic-field dependence of laser-induced-fluorescence excitation spectra of alkali atoms. This thin cell allows for sub-Doppler resolution without the complexity of atomic beam or laser cooling techniques. This technique is used to study the laser-induced-fluorescence excitation spectra of Rb in a 50 G magnetic field. At this field strength the electronic angular momentum J and nuclear angular momentum I are only partially decoupled. As a result of the mixing of wavefunctions of different hyperfine states, we observe a nonlinear Zeeman effect for each sublevel, a substantial modification of the transition probabilities between different magnetic sublevels, and the appearance of transitions that are strictly forbidden in the absence of the magnetic field. For the case of right- and left- handed circularly polarized laser excitation, the fluorescence spectra differs qualitatively. Well pronounced magnetic field induced circular dichroism is observed. These observations are explained with a standard approach that describes the partial decoupling of I and J states

    Spectroscopy in a sub-micrometer thick cell or how to probe the atom-surface interaction with a nanometric spatial resolution

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    Spectroscopy in a thin cell of dilute vapour, with a sub-micrometer thickness (varying locally in a ~50 nm - 1μ\mum range) offers interesting possibilities to probe the atom-surface interaction in an unexplored distance range

    The Monte Carlo method

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