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Tunable plasmon-induced transparency with coupled L-shape graphene metamaterial

Shuxian Chen, Liang Zeng, Jiaqi Li, Jun Weng, Junyi Li, Zicong Guo, Pengbai Xu, Wenjie Liu, Jun Yang, Yuwen Qin, Kunhua Wen

2022Results in Physics29 citationsDOIOpen Access PDF

Abstract

A graphene-based metamaterial structure, consisting of a graphene strip (GS) and a L-shaped graphene-rectangular block (GRB), is proposed to generate the plasmon-induced transparency (PIT) effect. The potential physical properties of the PIT effect are analyzed by using the coupled mode theory (CMT). The PIT has the unique characteristics of controlling light propagation through the static and dynamic regulations, resulting in a prospective switching application. The performance of the optical switch is evaluated through different parameters, including the geometric size, Fermi level and polarization angle. The modulation depth of the amplitude can reach 74.9% with a specific Fermi level, while the maximum polarization extinction ratio can reach 11.34 dB. Furthermore, dual and triple PIT effects are achieved by the designing and optimizing the structure. The maximum multiple switching effect is obtained with a modulation depth of 97.3%, which has a promising prospect in terahertz optical switches.

Topics & Concepts

GraphenePlasmonMetamaterialMaterials scienceExtinction ratioTerahertz radiationFermi energyAmplitude modulationOptoelectronicsOptical switchPolarization (electrochemistry)Modulation (music)Fermi levelOpticsElectronPhysicsNanotechnologyFrequency modulationTelecommunicationsWavelengthChemistryAcousticsQuantum mechanicsBandwidth (computing)Physical chemistryComputer sciencePlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces ApplicationsOrbital Angular Momentum in Optics
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