A Review: Active Tunable Terahertz Metamaterials

IF 3.7 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Advanced Photonics Research Pub Date : 2024-05-15 DOI:10.1002/adpr.202300351
Jining Li, Jiyue Chen, Dexian Yan, Fei Fan, Kai Chen, Kai Zhong, Yuye Wang, Zhen Tian, Degang Xu
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Abstract

The diversity and practicability of terahertz metamaterials have experienced rapid development in the past decade due to the increasing demand for various devices. This topic has attracted significant interest from researchers. Among the key functional devices in terahertz metamaterial systems, the active control ability of terahertz metamaterials is highly valuable and captivating. This implies that the electromagnetic properties of metamaterials can be modulated over a wide dynamic range by external stimuli. This review categorizes the different types of tunable terahertz metamaterials based on the external stimuli to which they respond, namely, mechanical modulation, electrical modulation, magnetic modulation, and optical modulation. Mechanically modulated devices offer simple yet efficient modulation, while electrical and magnetic modulation provide effective active modulation through electrical mechanisms. Optical modulation, in contrast, focuses on incorporating various materials to achieve active modulation.

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综述:有源可调谐太赫兹超材料
由于对各种设备的需求日益增长,太赫兹超材料的多样性和实用性在过去十年中经历了快速发展。这一课题引起了研究人员的极大兴趣。在太赫兹超材料系统的关键功能器件中,太赫兹超材料的主动控制能力极具价值和吸引力。这意味着超材料的电磁特性可以通过外部刺激在宽动态范围内进行调制。本综述根据可调谐太赫兹超材料所响应的外部刺激对其进行了分类,即机械调制、电调制、磁调制和光调制。机械调制设备提供简单而高效的调制,而电调制和磁调制则通过电气机制提供有效的主动调制。相比之下,光学调制则侧重于结合各种材料来实现主动调制。
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