期刊
MATERIALS
卷 15, 期 4, 页码 -出版社
MDPI
DOI: 10.3390/ma15041523
关键词
field enhancement; strong coupling; plasmonic-photonic coupling system; surface lattice resonance; Fabry-Perot resonance
类别
资金
- State Key Laboratory of Advanced Optical Communication Systems Networks, China [2020GZKF004]
- Shenzhen Research Foundation [JSGG20201103091401005]
Metal nanoparticles supporting plasmons can enhance electromagnetic fields at the nanoscale, resulting in strong light-matter interactions. In this work, significant near field enhancement over larger volumes is achieved by placing a metal nanorod array within a Fabry-Perot microcavity. The proposed plasmonic-photonic coupling system shows promising applications in nanolasers, nonlinear optics, and sensing.
Metal nanoparticles supporting plasmons are widely used to enhance electromagnetic fields, resulting in strong light-matter interactions at the nanoscale in a diverse range of applications. Recently, it has been shown that when metal nanorods are periodically arranged with proper lattice periods, surface lattice resonances (SLRs) can be excited and near fields can be greatly enhanced over extended volumes. In this work, we report significant near field enhancement over even larger volumes by placing the metal nanorod array within a Fabry-Perot (F-P) microcavity. Simulation results show that by taking advantage of strong coupling between the SLR and the photonic F-P resonances, the electric field intensity of the bonding split mode can be enhanced by up to 1935 times, which is about three times of the enhancement of the SLR, and the greatly enhanced field can extend over most of the F-P microcavity. We further show that the F-P resonances of both odd and even orders can strongly couple to the SLR by varying the nanorods position from the middle of the microcavity. We expect that the proposed plasmonic-photonic coupling system will find promising applications in nanolasers, nonlinear optics and sensing.
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