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All-optical flow control of a polariton condensate using non-resonant excitation

The precise adjustment of the polariton condensate flow under incoherent excitation conditions is an indispensable prerequisite for polariton-based logic gate operations. In this report, an all-optical approach for steering the motion of a polariton condensate using only non-resonant excitation is demonstrated. We create arbitrarily shaped functional potentials by means of a spatial light modulator, which allow for tailoring the condensate state and guiding a propagating condensate along reconfigurable pathways. Additional numerical simulations confirm the experimental observations and elucidate the interaction effects between background carriers and polariton condensates.

preprint2015arXivOpen access
Johannes SchmutzlerPrzemyslaw LewandowskiMarc AßmannDominik NiemietzStefan SchumacherMartin KampChristian SchneiderSven HöflingManfred Bayer
cond-mat.mes-hall
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Johannes SchmutzlerPrzemyslaw LewandowskiMarc AßmannDominik NiemietzStefan SchumacherMartin KampChristian SchneiderSven HöflingManfred Bayer

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