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Unveiling atom-photon quasi-bound states in hybrid plasmonic-photonic cavity.


ABSTRACT: Dissipation, often associated with plasmons, leads to decoherence and is generally considered fatal for quantum nonlinearities and entanglement. Counterintuitively, by introducing a dissipative plasmonic nanoantenna into a typical cavity quantum electrodynamics (QED) system, we unveil the wide existence of the atom-photon quasi-bound state (qBS), a kind of exotic eigenstate with anomalously small decay, in the hybrid plasmonic-photonic cavity. To derive the analytical condition of atom-photon qBS, we formulate a quantized two-mode model of the local density of states by connecting the interacting uncoupled cavity modes to the macroscopic QED. With resonant plasmon-photon coupling, we showcase the single-atom qBS that improves the efficiency of single-photon generation over one order of magnitude; and the two-atom qBS that significantly enhances spontaneous entanglement generation compared with a bare photonic cavity. Notably, such single-atom and multi-atom qBS can be simultaneously accessed in realistic plasmonic-photonic cavities, providing a versatile platform for advanced quantum technologies, such as quantum light sources, quantum computation, and quantum information.

SUBMITTER: Lu YW 

PROVIDER: S-EPMC11502002 | biostudies-literature | 2022 Jul

REPOSITORIES: biostudies-literature

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Unveiling atom-photon quasi-bound states in hybrid plasmonic-photonic cavity.

Lu Yu-Wei YW   Zhou Wen-Jie WJ   Li Yongyao Y   Li Runhua R   Liu Jing-Feng JF   Wu Lin L   Tan Haishu H  

Nanophotonics (Berlin, Germany) 20220609 14


Dissipation, often associated with plasmons, leads to decoherence and is generally considered fatal for quantum nonlinearities and entanglement. Counterintuitively, by introducing a dissipative plasmonic nanoantenna into a typical cavity quantum electrodynamics (QED) system, we unveil the wide existence of the atom-photon quasi-bound state (qBS), a kind of exotic eigenstate with anomalously small decay, in the hybrid plasmonic-photonic cavity. To derive the analytical condition of atom-photon qB  ...[more]

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