Design of broadband and monolayer terahertz metasurface absorber with genetic algorithm optimization

Ming Zhang, Qian Cheng, Yinjin Wu, Dongfang Chen, Ze Ma, Congwu Li
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Abstract

Terahertz (THz) absorbers have drawn great attention due to their potential applications in high-resolution imaging systems, sensing, and imaging. In particular, metasurface-based THz absorbers have exhibited the exotic advantage in high efficiency and broad bandwidth benefitted from the excellent abilities of metasurface in flexible modulating electromagnetic (EM) waves. However, the interactions between metasurface and EM waves are complex, and the metasurface-based absorbers have many structural parameters to optimize for high performance. Therefore, the absorbers are constrained by the manual design process with limited geometry complexity and tedious parameters sweeping. In this paper, the genetic algorithm (GA) is employed to the design of THz metasurface absorber. The EM responses of metasurface device is calculated by a simple yet powerful analytic method derived from catenary field. The employment of GA can achieve the automatic design process and demand-oriented reverse design for high performance and decreasing time consumption. As a proof-of-concept, the broadband and monolayer metasurface terahertz absorber with absorbance exceeding 80% in the frequency range from 1 to 4 THz is designed by the proposed strategy based on five typical types of metasurface. The investigations of this article present important guidance and a promising approach to design and optimize metasurface-based devices for their practical applications.
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基于遗传算法优化的宽带单层太赫兹超表面吸收器设计
太赫兹(THz)吸收器由于其在高分辨率成像系统、传感和成像方面的潜在应用而引起了人们的极大关注。特别是基于超表面的太赫兹吸波器,由于超表面具有灵活调制电磁波的能力,在高效率和宽带宽方面表现出了独特的优势。然而,超表面与电磁波之间的相互作用是复杂的,并且基于超表面的吸收器有许多结构参数需要优化以获得高性能。因此,吸波器受手工设计过程的限制,几何复杂性有限,参数扫描繁琐。本文将遗传算法应用于太赫兹超表面吸收器的设计。采用一种简单而强大的接触网场解析方法计算了超表面器件的电磁响应。采用遗传算法可以实现设计过程的自动化和需求导向的逆向设计,从而提高了设计的性能,降低了设计的耗时。作为概念验证,基于五种典型的超表面,设计了在1 ~ 4太赫兹频率范围内吸光度超过80%的宽带单层超表面太赫兹吸收体。本文的研究为设计和优化基于超表面的器件的实际应用提供了重要的指导和有前途的方法。
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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