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Tunable nonreciprocal metasurfaces based on a nonlinear quasi-bound state in the continuum

Yadong Xie, Zhimin Liu, Fengqi Zhou, Xin Luo, Yumin Gong, Ziqiang Cheng, Yun You

2024Optics Letters37 citationsDOI

Abstract

Nonreciprocal devices are essential and crucial in optics for source protection and signal separation. A hybrid grating system consisting of a silicon grating, a graphene layer, and a silicon waveguide layer is employed to create a high-Q quasi-BIC (bound state in the continuum). Then, the high-Q properties of the quasi-BIC are harnessed to enhance the third-order nonlinear effect of silicon, thereby improving the nonreciprocal characteristics of the device. The nonreciprocal transmittance ratio of the device can be tunable by adjusting the graphene Fermi energy level, achieving tunability ranging from 0.0865 to 30.57 dB. It also enables the best performance of the device over a wider range of frequency bands. This study provides a new, to the best of our knowledge, method for designing tunable nonreciprocal devices with a wide range of potential applications.

Topics & Concepts

OpticsNonlinear systemNonlinear opticsPhysicsState (computer science)Refractive indexComputer scienceQuantum mechanicsLaserAlgorithmMetamaterials and Metasurfaces ApplicationsNonlinear Photonic SystemsPlasmonic and Surface Plasmon Research