Multi-Band High-Efficiency Multi-Functional Polarization Controller Based on Terahertz Metasurface

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Abstract

Electromagnetic metasurfaces with excellent electromagnetic wave regulation properties are promising for designing high-performance polarization control devices, while the application prospect of electromagnetic metasurfaces is limited because of the current development situations of the complex structure, low conversion efficiency, and narrow working bandwidth. In this work, we design a type of reflective terahertz metasurface made of a simple structure that can achieve multiple polarization modulation with high efficiency. It is shown that the presented metasurface can realize ultra-broadband, cross-polarization conversion with the relative working bandwidth reaching 94% and a conversion efficiency of over 90%. In addition, the proposed metasurface can also efficiently accomplish different polarization conversion functions, such as linear-to-linear, linear-to-circular, or circular-to-linear polarization conversion in multiple frequency bands. Due to the excellent properties, the designed metasurface can be used as a high-efficiency multi-functional polarization modulation device, and it has important application value in terahertz imaging, communication, biological detection, and other fields.

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Chen, H., Zhao, W., Gong, X., Du, L., Cao, Y., Zhai, S., & Song, K. (2022). Multi-Band High-Efficiency Multi-Functional Polarization Controller Based on Terahertz Metasurface. Nanomaterials, 12(18). https://doi.org/10.3390/nano12183189

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