Thermally tunable vanadium-dioxide-based broadband metamaterial absorber with switchable functionality in the terahertz band

IF 3.1 Q2 MATERIALS SCIENCE, COMPOSITES Functional Composites and Structures Pub Date : 2023-05-11 DOI:10.1088/2631-6331/acd490
Chongyang Xu, Guiyuan Duan, Wei Xu, Xingzhu Wang, Yang Huang, Xiangyang Zhang, Huaxin Zhu, Ben-Xin Wang
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Abstract

In this paper, a thermally tunable broadband metamaterial absorber, with switchable functionality in the terahertz band, consisted of periodically arranged vanadium dioxide (VO2) and a gold film separated by a layer of polyimide is reported, which is capable of switching from absorber to reflector through the phase change property of VO2. When VO2 is in the metallic state, three near-perfect absorption peaks localized at 3.48 THz, 5.09 THz and 7.05 THz are obtained, and the combination of them gives rise to a broadband absorption, more than 90% of absolute absorption bandwidth reaches 4.35 THz (3.1–7.45 THz) with a relative absorption bandwidth of 82.46%. When VO2 is in the dielectric state, it can switch from near-perfect broadband absorption to near-perfect reflection with the maximum intensity modulation of 92.4%. The broadband absorption is insensitive to polarization of incident beam due to symmetrical structure design and exhibits excellent tolerance for large oblique incidence angle. In addition, size changes of patterned VO2 array structure provides a large impact on the absorption performance of the thermally tunable device, especially the absorption bandwidth. Our proposed device is expected to have outstanding prospects in terahertz thermal imaging, communications, and temperature-controlled metasurface.
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在太赫兹波段具有可切换功能的热可调谐二氧化钒基宽带超材料吸收体
本文报道了一种在太赫兹波段具有可切换功能的热可调谐宽带超材料吸收体,该吸收体由周期性排列的二氧化钒(VO2)和一层聚酰亚胺分离的金膜组成,它能够通过VO2的相变特性从吸收体切换到反射体。当VO2处于金属态时,得到了位于3.48 THz、5.09 THz和7.05 THz的三个接近完美的吸收峰,它们的组合产生了宽带吸收,超过90%的绝对吸收带宽达到4.35 THz (3.1-7.45 THz),相对吸收带宽为82.46%。当VO2处于介电状态时,它可以从近完美的宽带吸收切换到近完美反射,最大强度调制为92.4%。由于对称结构设计,宽带吸收对入射光束的偏振不敏感,并且对大斜入射角具有良好的容忍度。此外,图像化VO2阵列结构的尺寸变化对热可调谐器件的吸收性能,特别是吸收带宽有很大的影响。我们提出的器件在太赫兹热成像、通信和温控超表面方面具有突出的前景。
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来源期刊
Functional Composites and Structures
Functional Composites and Structures Materials Science-Materials Science (miscellaneous)
CiteScore
4.80
自引率
10.70%
发文量
33
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