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Tunable Terahertz Metamaterials Based on Anapole Excitation with Graphene for Reconfigurable Sensors

Xiaoyu Liu, Zizheng Liu, Ming Hua, Luyao Wang, Kaifeng Wang, Weiwei Zhang, Yafei Ning, Yanpeng Shi, Xiaodong Wang, Fuhua Yang

2020ACS Applied Nano Materials38 citationsDOI

Abstract

Anapole mode is excited by the destructive interference between the toroidal- and electric-dipole moments, resulting in a high-quality (Q) factor. In this paper, we designed a high-Q-factor metamaterial that shows anapole behaviors in the terahertz region. Through the introduction of graphene, the destructive interference condition is disturbed and tunability can be realized. This pattern reflects a brilliant tunability performance in which frequency movements above 250 GHz per 0.1 eV can be verified. Ingenious adjustment by the position of graphene offers the possibility of diversified tuning capabilities. Such a tunable terahertz metamaterial has great potential in reconfigurable sensors.

Topics & Concepts

Terahertz radiationMetamaterialGrapheneExcitationOptoelectronicsInterference (communication)DipoleExcited stateQuality (philosophy)Materials sciencePosition (finance)PhysicsNanotechnologyComputer scienceTelecommunicationsAtomic physicsQuantum mechanicsEconomicsChannel (broadcasting)FinanceMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon ResearchAntenna Design and Analysis
Tunable Terahertz Metamaterials Based on Anapole Excitation with Graphene for Reconfigurable Sensors | Litcius