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arxiv 1211.4793 v2 pith:DAIC6644 submitted 2012-11-20 cond-mat.quant-gas physics.opticsquant-ph

Optomechanical Generation of a photonic Bose-Einstein Condensate

classification cond-mat.quant-gas physics.opticsquant-ph
keywords photoncavitybose-einsteincondensationenergyinteractionsnanomechanicaloptical
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We propose to thermalize a low-dimensional photon gas and obtain photon Bose-Einstein condensation by optomechanical interactions in a microscopic optical cavity, with a single longitudinal mode and many transverse modes. The geometry of the short cavity is such that it provides a low-frequency cutoff at a photon energy far above the thermal energy, so that thermal emission of photons is suppressed and the photon number is conserved. While previous experiments on photon Bose-Einstein condensation have used dye molecules for photon gas thermalization, we here investigate thermalization owing to interactions with thermally fluctuating nanomechanical oscillators forming the cavity mirrors. In the quantum degenerate regime, the nanomechanical cavity converts broadband optical radiation into tuneable coherent radiation.

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