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W2620371359 abstract "Localized-surface plasmon resonance is of importance in both fundamental and applied physics for the subwavelength confinement of optical field, but realization of quantum coherent processes is confronted with challenges due to strong dissipation. Here we propose to engineer the electromagnetic environment of metallic nanoparticles (MNPs) using optical microcavities. An analytical quantum model is built to describe the MNP-microcavity interaction, revealing the significantly enhanced dipolar radiation and consequentially reduced Ohmic dissipation of the plasmonic modes. As a result, when interacting with a quantum emitter, the microcavity-engineered MNP enhances the quantum yield over 40 folds and the radiative power over one order of magnitude. Moreover, the system can enter the strong coupling regime of cavity quantum electrodynamics, providing a promising platform for the study of plasmonic quantum electrodynamics, quantum information processing, precise sensing and spectroscopy." @default.
W2620371359 created "2017-06-05" @default.
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W2620371359 date "2017-12-04" @default.
W2620371359 modified "2023-10-17" @default.
W2620371359 title "Enhancing Coherent Light-Matter Interactions through Microcavity-Engineered Plasmonic Resonances" @default.
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W2620371359 doi "https://doi.org/10.1103/physrevlett.119.233901" @default.
W2620371359 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29286676" @default.
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