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Tunable ultra-broadband terahertz perfect absorber based on vanadium oxide metamaterial

Yulian Li, Wei Gao, Li Guo, Zihao Chen, Changjian Li, Haiming Zhang, Jiajia Jiao, Bowen An

2021Optics Express56 citationsDOIOpen Access PDF

Abstract

A dynamically tunable ultra-broadband terahertz perfect metamaterial absorber based on vanadium oxide (VO 2 ) is proposed and numerically demonstrated. The excellent absorption bandwidth of greater than 90% absorptance is as wide as 5.10 THz from 3.03 to 8.13 THz under normal incidence. By changing the conductivity of VO 2 from 200 S/m to 2×10 5 S/m, the absorption intensity can be dynamically tuned from 1.47% to 100%. The ultrabroad bandwidth and flexibility are dramatically improved compared with previously reported VO 2 based absorbers. The physical mechanism of the ultra-wideband absorption is discussed based on the interference cancellation, impedance matching theory, and field distributions. The influences of structure parameters on perfect absorption are also discussed. In addition, the absorber has the advantages of insensitivity to polarization and incident angle. Such a tunable ultra-broadband absorber may have promising potential in the applications of modulating, cloaking, switching, and imaging technology.

Topics & Concepts

Materials scienceTerahertz radiationMetamaterialMetamaterial absorberOpticsAbsorptanceOptoelectronicsBroadbandCloakingBandwidth (computing)WidebandImpedance matchingTransmittanceAbsorption (acoustics)Electrical impedanceTelecommunicationsTunable metamaterialsPhysicsComposite materialQuantum mechanicsComputer scienceReflectivityMetamaterials and Metasurfaces ApplicationsAdvanced Antenna and Metasurface TechnologiesElectromagnetic Scattering and Analysis
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