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W3134493057 abstract "Plasmonic self-assembled nanocavities are ideal platforms for extreme light localization as they deliver mode volumes of <50 nm3. Here we show that high-order plasmonic modes within additional micrometer-scale resonators surrounding each nanocavity can boost light localization to intensity enhancements >105. Plasmon interference in these hybrid microresonator nanocavities produces surface-enhanced Raman scattering (SERS) signals many-fold larger than in the bare plasmonic constructs. These now allow remote access to molecules inside the ultrathin gaps, avoiding direct irradiation and thus preventing molecular damage. Combining subnanometer gaps with micrometer-scale resonators places a high computational demand on simulations, so a generalized boundary element method (BEM) solver is developed which requires 100-fold less computational resources to characterize these systems. Our results on extreme near-field enhancement open new potential for single-molecule photonic circuits, mid-infrared detectors, and remote spectroscopy." @default.
W3134493057 created "2021-03-15" @default.
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W3134493057 date "2021-03-11" @default.
W3134493057 modified "2023-10-17" @default.
W3134493057 title "Interfering Plasmons in Coupled Nanoresonators to Boost Light Localization and SERS" @default.
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W3134493057 doi "https://doi.org/10.1021/acs.nanolett.0c04987" @default.
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