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In-Situ Dual-Port Polarization Contrast Imaging of Faraday Rotation in a High Optical Depth Ultracold 87Rb Atomic Ensemble

We study the effects of high optical depth and density on the performance of a light-atom quantum interface. An in-situ imaging method, a dual-port polarization contrast technique, is presented. This technique is able to compensate for image distortions due to refraction. We propose our imaging method as a tool to characterize atomic ensembles for high capacity spatial multimode quantum memories. Ultracold dense inhomogeneous Rubidium samples are imaged and we find a resonant optical depth as high as 680 on the D1 line. The measurements are compared with light-atom interaction models based on Maxwell-Bloch equations. We find that an independent atom assumption is insufficient to explain our data and present corrections due to resonant dipole-dipole interactions.

preprint2012arXivOpen access
Franziska KaminskiNir S. KampelMads P. H. SteenstrupAxel GriesmaierEugene S. PolzikJörg H. Müller
physics.atm-clusphysics.atom-phquant-ph
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Open access6 authors3 topics
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Franziska KaminskiNir S. KampelMads P. H. SteenstrupAxel GriesmaierEugene S. PolzikJörg H. Müller

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