Thermally Tunable Polarization-insensitive Ultra-broadband Absorber in a Terahertz Metamaterial Sustained by the Coupled Toroidal Dipole Modes

2022 Photonics & Electromagnetics Research Symposium (PIERS) Pub Date : 2022-04-25 DOI:10.1109/piers55526.2022.9793180

Hao Pan, Hai‐feng Zhang

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Abstract

The reported terahertz (THz) metamaterial absorber (MMA) sustained by coupled toroidal dipole modes enable a distinctive path to acquire the wide-band high absorption in the multipole optical system. The coupled toroidal dipole moments existing in the toroidal metallic structure can induce the destructive and constructive interference in far- and near-held to confine the electromagnetic field, thus impelling the MMA to attain the high absorption efficiency (over 0.9) of the normally incident waves with different polarization in the spectral of 2.38–21.13 THz at 340K, the relative absorption bandwidth (RABW) of 159.5%. In addition, owing to the characteristics of vanadium dioxide (VO2) regulated by environmental temperature, the tunability of absorption efficiency of such MMA, maximum up to 0.57 in the operating band, has been achieved through regulating the environmental temperature. The proposed method of enhancing the absorption resulting from the coupled toroidal dipole moments in a wide band can contribute to expanding the application field and the theoretical framework of multipole electrodynamics.

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由耦合环向偶极子模式维持的太赫兹超材料中的热可调谐偏振不敏感超宽带吸收体

所报道的太赫兹(THz)超材料吸收体(MMA)由耦合环向偶极子模式维持，在多极光学系统中实现了宽带高吸收的独特路径。环形金属结构中存在的耦合环向偶极矩可以诱导远场和近场的破坏性和建设性干涉，从而限制电磁场，从而促使MMA在340K时对2.38 ~ 21.13 THz范围内不同极化的正入射波具有较高的吸收效率(大于0.9)，相对吸收带宽(RABW)为159.5%。此外，由于二氧化钒(VO2)受环境温度调节的特性，通过调节环境温度，实现了该MMA吸收效率的可调性，在工作波段内最高可达0.57。本文提出的增强宽波段环形偶极矩耦合吸收的方法有助于扩展多极电动力学的应用领域和理论框架。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 Photonics & Electromagnetics Research Symposium (PIERS)

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