Journal
ACS PHOTONICS
Volume 8, Issue 1, Pages 307-314Publisher
AMER CHEMICAL SOC
DOI: 10.1021/acsphotonics.0c01569
Keywords
plasmonics; nanogap; picocavities; strong coupling; quasinormal mode; quenching
Categories
Funding
- [ANR-18CE240026]
- [ANR-18CE47-0006]
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This research proposes a new interpretation for light confinement in picocavities formed by ultrasmall metallic protuberances inside the gap of metal-insulator-metal nanoresonators. It demonstrates that the brightness of the protuberances supporting dark resonances can be significantly enhanced by strong coupling with nanoresonator modes with nanometric dielectric spacers. Moreover, it clarifies the role of gap plasmons in this coupling and proposes a general strategy to design extremely localized modes with cubic nanometer volumes and unprecedented brightness.
We propose a new interpretation for light confinement in picocavities formed by ultrasmall metallic protuberances inside the gap of metal-insulator-metal nanoresonators. We demonstrate that the protuberances support dark resonances with mode volumes comparable to their geometric volumes and that their brightness can be enhanced by several orders of magnitude when they are strongly coupled with the modes of nanoresonators with nanometric dielectric spacers. With a simple and accurate closed-form expression, we clarify the role of gap plasmons in this coupling. Based on this understanding, we propose a general strategy, exploiting strong coupling to design extremely localized modes with cubic nanometer volumes and so-far unreached brightness.
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