期刊
ACS PHOTONICS
卷 9, 期 11, 页码 3642-3648出版社
AMER CHEMICAL SOC
DOI: 10.1021/acsphotonics.2c01069
关键词
metasurfaces; quasi-BIC; dielectric; Mie resonance; angular resolved transmission
High-index dielectric metasurfaces have great potential in nanophotonics due to their controllable optical properties and small size. This article focuses on the numerical and experimental study of symmetry-breaking metasurfaces made of amorphous silicon nanodisks. The results show that the angular response of the metasurfaces varies with the tilt direction of the incident light.
High-index dielectric metasurfaces have gradually become one of the most promising platforms in the field of nanophotonics due to the ease in engineering their optical behavior and their small size. Several numerical and experimental studies have been conducted in the fields of plasmonic metasurfaces and dielectric metasurfaces on in-plane symmetry-breaking nanodisk metasurfaces supporting high -Q states called quasi-BICs, where these devices are useful for applications such as imaging and biodetection. This article studies numerically and experimentally symmetry-breaking metasurfaces made of amorphous silicon (alpha-Si) nanodisks in the visible-to-near-infrared range. It is reported that the angular response of the quasi-BICs for type I symmetry breaking metasurfaces can be blue-shifted with respect to incident light tilted parallel to the axis of mirror symmetry and red-shifted when tilted perpendicular to it due to changes in the in-plane momentum. Comparatively, the angular response of the quasi-BICs of type II symmetry-breaking metasurfaces can only be red shifted due to mirror symmetries in both axis directions.
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