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Tunable circular dichroism based on graphene-metal split ring resonators

Youdan Zhang, Houquan Liu, Ronghui Xu, Zujun Qin, Chuanxin Teng, Shijie Deng, Ming Chen, Yu Cheng, Hongchang Deng, Hongyan Yang, Shiliang Qu, Libo Yuan

2021Optics Express33 citationsDOIOpen Access PDF

Abstract

The chiroptical response of the chiral metasurface can be characterized by circular dichroism, which is defined as the absorption difference between left-handed circularly polarized incidence and right-handed circularly incidence. It can be applied in biology, chemistry, optoelectronics, etc. Here, we propose a dynamically tunable chiral metasurface structure, which is composed of two metal split-ring resonators and a graphene layer embedded in dielectric. The structure reflects right-handed circularly polarized waves and absorbs left-handed circularly polarized waves under normal incidence. The overall unit structural parameters of the chiral metasurface were discussed and analyzed, and the circular dichroism was 0.85 at 1.181 THz. Additionally, the digital imaging function can be realized based on the chiral metasurface structure, and the resolution of terahertz digital imaging can be dynamically tuned by changing the Fermi level of graphene. The proposed structure has potential applications in realizing tunable dynamic imaging and other communication fields.

Topics & Concepts

Circular dichroismCircular polarizationOpticsTerahertz radiationGrapheneSplit-ring resonatorResonatorX-ray magnetic circular dichroismMaterials scienceMetamaterialOptoelectronicsPhysicsMagnetic circular dichroismMicrostripNanotechnologyCrystallographyChemistryAstronomySpectral lineMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesAntenna Design and Analysis
Tunable circular dichroism based on graphene-metal split ring resonators | Litcius