Dispersive optical interface based on nanofiber-trapped atoms

Dispersive optical interface based on nanofiber-trapped atoms

We dispersively interface an ensemble of 1000 atoms trapped in the evanescent field surrounding a tapered optical nanofiber. This method relies on the azimuthally asymmetric coupling of the ensemble with the evanescent field of an off-resonant probe beam, transmitted through the nanofiber. The resul...

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Veröffentlicht in:Physical review letters 2011-12, Vol.107 (24), p.243601-243601, Article 243601
Hauptverfasser: Dawkins, S T, Mitsch, R, Reitz, D, Vetsch, E, Rauschenbeutel, A
Format: Artikel
Sprache:eng
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Zusammenfassung:We dispersively interface an ensemble of 1000 atoms trapped in the evanescent field surrounding a tapered optical nanofiber. This method relies on the azimuthally asymmetric coupling of the ensemble with the evanescent field of an off-resonant probe beam, transmitted through the nanofiber. The resulting birefringence and dispersion are significant; we observe a phase shift per atom of ∼1  mrad at a detuning of 6 times the natural linewidth, corresponding to an effective resonant optical density per atom of 0.027. Moreover, we utilize this strong dispersion to nondestructively determine the number of atoms.
ISSN:0031-9007
1079-7114
DOI:10.1103/physrevlett.107.243601