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Terahertz metamaterial resonator with tunable Fano-resonance characteristic

Yao Wen, Kunlin Chen, Yu‐Sheng Lin

2021Results in Physics20 citationsDOIOpen Access PDF

Abstract

We present two types of tunable terahertz metamaterial (TTM) resonator. They are denoted as TTM-1 and TTM-2 for TTM resonators composed of a moveable metal frame carrying with inner disc and inner ring on Si substrates, respectively. The electromagnetic responses of TTM resonators are caused by the inductance-capacitance coupling effect between the incident THz wave into TTM structure. There is a Fano-resonance with a reflection intensity of 99% excited by electromagnetic wave within TTM-1 at 2.62 THz. By actively moving the metal frame in a specific direction, it enables a modulation of resonant frequency. The tuning ranges of TTM-1 and TTM-2 are 0.19 THz and 0.79 THz, respectively. Furthermore, TTM devices have the ability of anti-inference by moving metal frame transversely. It means TTM devices exhibit stable characteristic used in dynamic motion. Such designs of TTM configurations provide a high-efficiency THz resonator in the THz-waves applications such as filtering, switching, polarizing, sensing, and imaging fields.

Topics & Concepts

Terahertz radiationResonatorMetamaterialSplit-ring resonatorResonance (particle physics)Fano resonanceOpticsOptoelectronicsMaterials sciencePhysicsPlasmonParticle physicsMetamaterials and Metasurfaces ApplicationsTerahertz technology and applicationsAntenna Design and Analysis
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