Ensemble-Induced Strong Light-Matter Coupling of a Single Quantum Emitter

We discuss a technique to strongly couple a single target quantum emitter to a cavity mode, which is enabled by virtual excitations of a nearby mesoscopic ensemble of emitters. A collective coupling of the latter to both the cavity and the target emitter induces strong photon nonlinearities in addit...

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Veröffentlicht in:	Physical review letters 2020-03, Vol.124 (11), p.113602-113602, Article 113602
Hauptverfasser:	Schütz, S, Schachenmayer, J, Hagenmüller, D, Brennen, G K, Volz, T, Sandoghdar, V, Ebbesen, T W, Genes, C, Pupillo, G
Format:	Artikel
Sprache:	eng
Schlagworte:	Coupling Data processing Diamonds Emitters Physics Polaritons Quantum chemistry Quantum phenomena Quantum Physics
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creator	Schütz, S Schachenmayer, J Hagenmüller, D Brennen, G K Volz, T Sandoghdar, V Ebbesen, T W Genes, C Pupillo, G
description	We discuss a technique to strongly couple a single target quantum emitter to a cavity mode, which is enabled by virtual excitations of a nearby mesoscopic ensemble of emitters. A collective coupling of the latter to both the cavity and the target emitter induces strong photon nonlinearities in addition to polariton formation, in contrast to common schemes for ensemble strong coupling. We demonstrate that strong coupling at the level of a single emitter can be engineered via coherent and dissipative dipolar interactions with the ensemble, and provide realistic parameters for a possible implementation with SiV^{-} defects in diamond. Our scheme can find applications, amongst others, in quantum information processing or in the field of cavity-assisted quantum chemistry.
doi_str_mv	10.1103/physrevlett.124.113602
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subjects	Coupling Data processing Diamonds Emitters Physics Polaritons Quantum chemistry Quantum phenomena Quantum Physics
title	Ensemble-Induced Strong Light-Matter Coupling of a Single Quantum Emitter
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