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arxiv: 2211.13300 · v1 · pith:HDUHC7Y2new · submitted 2022-11-23 · ⚛️ physics.optics · cond-mat.mes-hall· cond-mat.quant-gas

A room-temperature electrical-field-enhanced ultrafast switch in organic microcavity polariton condensates

classification ⚛️ physics.optics cond-mat.mes-hallcond-mat.quant-gas
keywords electricfieldpolaritonelectrical-field-enhancedexcitonsintegratedmicrocavityorganic
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Integrated electro-optical switches are essential as one of the fundamental elements in the development of modern optoelectronics. As an architecture for photonic systems, exciton polaritons, that are hybrid bosonic quasiparticles that possess unique properties derived from both excitons and photons, have shown much promise. For this system, we demonstrate a significant improvement of emitted intensity and condensation threshold by applying an electric field to a microcavity filled with an organic microbelt. Our theoretical investigations indicate that the electric field makes the excitons dipolar and induces an enhancement of the exciton-polariton interaction and of the polariton lifetime. Based on these electric field induced changes, a sub-nanosecond electrical-field-enhanced polariton condensate switch is realized at room temperature, providing the basis for developing an on-chip integrated photonic device in the strong light-matter coupling regime.

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