基于液晶的多比特太赫兹可重构智能表面

IF 5.4 1区 物理与天体物理 Q1 OPTICS APL Photonics Pub Date : 2024-01-11 DOI:10.1063/5.0176272
Ze Shen, Weili Li, Biaobing Jin, Dixian Zhao
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引用次数: 0

摘要

最近,人们对可重构智能表面(RIS)技术的兴趣与日俱增,促使人们对其在太赫兹(THz)领域的应用进行了广泛研究。太赫兹场的重新配置由 RIS 驱动,这对太赫兹频率下各种实际的 RIS 辅助实现具有重要意义。在本研究中,我们提出了一种基于液晶的多位 RIS,可对太赫兹波进行可编程控制。所提出的 RIS 具有可实现 3 位工作状态以及在 0.28 THz 附近接近 270° 最大相移的特点。这种操纵反射场相位的高自由度为太赫兹空间波束的重新配置提供了灵活性。我们展示了太赫兹单波束模式可以从 5° 到 55° 连续转向所需的角度,同时还允许调整波束数和波束宽度。通过这次演示,我们希望为太赫兹系统中 RIS 技术的发展做出贡献,为太赫兹无线通信等各种 RIS 辅助应用铺平道路。
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A liquid crystal-based multi-bit terahertz reconfigurable intelligent surface
Recently, the growing interest in reconfigurable intelligent surface (RIS) technology has spurred extensive research on its utilization in the terahertz (THz) regime. The reconfiguration of the THz field empowered by the RIS holds great significance for various practical RIS-aided implementations at THz frequencies. In this study, we present a multi-bit liquid crystal-based RIS that allows for the programmable control of THz waves. The proposed RIS is characterized by an achievable 3-bit working state as well as a near 270° maximum phase shift around 0.28 THz. This high degree of freedom in manipulating the phase of the reflected field provides flexibility in terahertz spatial beam reconfigurations. We show that the terahertz single-beam pattern can be steered continuously from 5° to 55° toward the desired angles while also allowing the adjustment of the beam number and beamwidth. Through this demonstration, we aim to contribute to the advancement of RIS technologies in the terahertz regime, paving the way for various RIS-aided applications such as THz wireless communications and beyond.
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来源期刊
APL Photonics
APL Photonics Physics and Astronomy-Atomic and Molecular Physics, and Optics
CiteScore
10.30
自引率
3.60%
发文量
107
审稿时长
19 weeks
期刊介绍: APL Photonics is the new dedicated home for open access multidisciplinary research from and for the photonics community. The journal publishes fundamental and applied results that significantly advance the knowledge in photonics across physics, chemistry, biology and materials science.
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