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Interplay between tightly focused excitation and ballistic propagation of polariton condensates in a ZnO microcavity

The formation and propagation of a polariton condensate under tightly focused excitation is investigated in a ZnO microcavity both experimentally and theoretically. 2D near-field and far-field images of the condensate are measured under quasi-continuous non-resonant excitation. The corresponding spatial profiles are compared to a model based on the Gross-Pitaevskii equation under cylindrical geometry. This work allows to connect the experiments performed with a small excitation laser spot and the previous kinetic models of condensation in a 2D infinite microcavity, and to determine the relevant parameters of both the interaction and the relaxation between the reservoir and the condensate. Two main parameters are identified: the exciton-photon detuning through the polariton effective mass and the temperature, which determines the efficiency of the relaxation from the reservoir to the condensate.

preprint2016arXivOpen access
Rereao HaheChristelle BrimontPierre ValvinThierry GuilletFeng LiMathieu LerouxJesus Zuniga-PerezXavier LafosseGilles PatriarcheSophie Bouchoule
cond-mat.mes-hall
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Open access10 authors1 topic
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Rereao HaheChristelle BrimontPierre ValvinThierry GuilletFeng LiMathieu LerouxJesus Zuniga-PerezXavier LafosseGilles PatriarcheSophie Bouchoule

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