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Dual‐band bound states in the continuum based on hybridization of surface lattice resonances

Xiang Du, Lei Xiong, Xueqian Zhao, Shuai Chen, Jianping Shi, Guangyuan Li

2022Nanophotonics48 citationsDOIOpen Access PDF

Abstract

Abstract We propose and experimentally demonstrate a novel strategy to achieve dual‐band symmetry‐protected bound states in the continuum (BICs) in silicon metasurfaces. This strategy is based on the hybridization of Mie surface lattice resonances (SLRs) in periodic silicon bipartite nanodisk arrays, of which the central nanodisk displaced from the center of the unit cell. We show that dual‐band electric quadrupole and magnetic dipole BICs can be supported in such a system, and transfer to quasi‐BICs with ultrahigh measured quality factors up to 1240 at the Γ point. Taking advantage of the SLR characteristics, we show that the spectral separation and the quality factors of these two quasi‐BICs can be conveniently tuned by varying the nanodisk diameter or the lattice period. Making use of these dual‐band quasi‐BICs, we numerically obtain bulk sensitivities above 480 nm/RIU and high figures of merit up to 1200. We also show that when the central nanodisk is not displaced but has different diameter, the silicon bipartite nanodisk array supports an electric dipole BIC that was referred to as subradiant SLR in the literature. Our work provides a new approach for realizing and tuning dual‐band BICs, and the obtained ultrahigh‐ Q quasi‐BICs can find potential applications in nonlinear optics, multimodal lasing, and optical sensing.

Topics & Concepts

Lattice (music)Bound stateNanomaterialsPhysicsCondensed matter physicsSurface statesMaterials scienceQuantum mechanicsSurface (topology)NanotechnologyGeometryMathematicsAcousticsPhotonic Crystals and ApplicationsOptical Coatings and GratingsMicrowave Engineering and Waveguides
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