基于石墨烯超表面的效率可调太赫兹聚焦透镜

Q3 Engineering

光电工程 Pub Date : 2021-04-15 DOI:10.12086/OEE.2021.200319

Wang Junyao, Fan Junpeng, Shu‐meng Hao, Liu Chang, Chen Yongzhi

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引用次数: 12

摘要

提出了一种基于石墨烯超表面的效率可调太赫兹聚焦透镜。单元电池由两个对称的圆形石墨烯空洞和中间介电层组成，其中空心圆形中间由矩形石墨烯片连接。该结构可以实现偏振转换，例如，在超表面上发射具有左手圆偏振的入射光时，透射光的偏振为右手圆偏振。根据几何相位原理，通过旋转矩形棒的方向，透射波会增加一个相位，可以覆盖2π的范围。通过合理安排石墨烯超表面的单元结构，可以实现太赫兹聚焦透镜。仿真结果表明，通过改变石墨烯的费米能级可以调节圆偏振光的转换幅度，也可以动态调节超构透镜的聚焦效率。因此，这种基于石墨烯超表面的效率可调聚焦透镜可以在不改变单元电池尺寸的情况下通过改变费米能级来实现，可以广泛应用于太赫兹领域，如能量收集和成像。

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Efficiency-tunable terahertz focusing lens based on graphene metasurface

This paper proposes an efficiency-tunable terahertz focusing lens based on the graphene metasurface. The unit cell is composed of two symmetrical circular graphene hollows and an intermediate dielectric layer, wherein the hollow circular middle is connected by a rectangular graphene sheet. This structure can realize polarization conversion, for example, when an incidence with left-hand circular polarization emitted on the metasurface the polarization of the transmitted light is right-hand circular polarization. According to the principle of geometric phase, by rotating the direction of the rectangular bar, the transmitted wave will carry an additional phase and can cover the range of 2π. An THz focusing lens can be realized by properly arranging the unit structure of the graphene metasurface. The simulation results show that the conversion amplitude of circular polarized light can be adjusted by changing the Fermi level of graphene, and the focusing efficiency of the metalens can also be dynamically adjusted. Therefore, this graphene metasurface-based efficiency-tunable focusing lens can be realized by changing the Fermi level without changing the size of the unit cell, and can be widely used in terahertz applications such as energy harvesting and imaging.

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来源期刊

光电工程 Engineering-Electrical and Electronic Engineering

CiteScore

2.00

自引率

0.00%

发文量

6622

期刊介绍： Founded in 1974, Opto-Electronic Engineering is an academic journal under the supervision of the Chinese Academy of Sciences and co-sponsored by the Institute of Optoelectronic Technology of the Chinese Academy of Sciences (IOTC) and the Optical Society of China (OSC). It is a core journal in Chinese and a core journal in Chinese science and technology, and it is included in domestic and international databases, such as Scopus, CA, CSCD, CNKI, and Wanfang. Opto-Electronic Engineering is a peer-reviewed journal with subject areas including not only the basic disciplines of optics and electricity, but also engineering research and engineering applications. Optoelectronic Engineering mainly publishes scientific research progress, original results and reviews in the field of optoelectronics, and publishes related topics for hot issues and frontier subjects. The main directions of the journal include: - Optical design and optical engineering - Photovoltaic technology and applications - Lasers, optical fibres and communications - Optical materials and photonic devices - Optical Signal Processing