An acoustic black hole in a stationary hydrodynamic flow of microcavity polaritons

A. Amo; A. Lema\^itre; D. Gerace; D. Sanvitto; E. Galopin; H. S. Nguyen; I. Carusotto; I. Sagnes; J. Bloch

arxiv: 1410.0238 · v1 · pith:URUUNWMSnew · submitted 2014-10-01 · ❄️ cond-mat.mes-hall · cond-mat.quant-gas

An acoustic black hole in a stationary hydrodynamic flow of microcavity polaritons

H. S. Nguyen , D. Gerace , I. Carusotto , D. Sanvitto , E. Galopin , A. Lema\^itre , I. Sagnes , J. Bloch

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A. Amo

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classification ❄️ cond-mat.mes-hall cond-mat.quant-gas

keywords acousticdefecteffectsexperimentalflowhydrodynamicmicrocavitypolariton

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We report an experimental study of superfluid hydrodynamic effects in a one-dimensional polariton fluid flowing along a laterally patterned semiconductor microcavity and hitting a micron-sized engineered defect. At high excitation power, superfluid propagation effects are observed in the polariton dynamics, in particular, a sharp acoustic horizon is formed at the defect position, separating regions of sub- and super-sonic flow. Our experimental findings are quantitatively reproduced by theoretical calculations based on a generalized Gross-Pitaevskii equation. Promising perspectives to observe Hawking radiation via photon correlation measurements are illustrated.

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An acoustic black hole in a stationary hydrodynamic flow of microcavity polaritons

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