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Inhibition of electromagnetically induced absorption due to excited state decoherence in Rb vapor

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arxiv quant-ph/0211065 v1 pith:2XM7BACC submitted 2002-11-12 quant-ph

Inhibition of electromagnetically induced absorption due to excited state decoherence in Rb vapor

classification quant-ph
keywords excitedstateabsorptiondecoherenceelectromagneticallyinducedpresentedresonance
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The explanation presented in [Taichenachev et al, Phys. Rev. A {\bf 61}, 011802 (2000)] according to which the electromagnetically induced absorption (EIA) resonances observed in degenerate two level systems are due to coherence transfer from the excited to the ground state is experimentally tested in a Hanle type experiment observing the parametric resonance on the $% D1$ line of $^{87}$Rb. While EIA occurs in the $F=1\to F^{\prime}=2 $ transition in a cell containing only $Rb$ vapor, collisions with a buffer gas ($30 torr$ of $Ne$) cause the sign reversal of this resonance as a consequence of collisional decoherence of the excited state. A theoretical model in good qualitative agreement with the experimental results is presented.

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