基于 Floquet 模态展开、可独立控制振幅和相位的新型可重构元面的等效电路建模

IF 6.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE journal of microwaves Pub Date : 2024-04-10 DOI:10.1109/JMW.2024.3381986

Xin You;Panagiotis Kosmas

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引用次数: 0

摘要

可重构元表面（RMTS）具有动态控制电磁（EM）响应的能力，因此在 5G 无线通信的高级应用中需求量很大。然而，迄今为止，大多数研究都只侧重于调制电磁波面的振幅或频率。限制当前 RMTS 发展的关键问题是其繁琐的优化过程。鉴于这一差距，本文通过应用 Floquet 模态扩展方法，提出了一种具有振幅和相位独立控制功能的新型 RMTS（AP-RMTS）散射的精确等效电路模型（ECM）。基于精确的等效电路模型，我们可以轻松设计出拟议 AP-RMTS 在不同工作频率下的电磁响应。这种灵活性使所提出的设计能够随时适用于 5G 无线通信的不同场景。

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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Equivalent Circuit Modeling of a Novel Reconfigurable Metasurface With Independent Control of Amplitude and Phase Based on Floquet Modal Expansion

Reconfigurable metasurfaces (RMTSs) are in high demand for advanced applications in 5G wireless communications thanks to their intriguing ability to control the electromagnetic (EM) response dynamically. However, most efforts so far have focused on modulating only either the EM wavefront amplitude or frequency. The key issue limiting the development of current RMTSs is their burdensome optimization process. Given this gap, this paper proposes an accurate equivalent circuit model (ECM) for the scattering of a novel RMTS with independent control of amplitude and phase (AP-RMTS) by applying the Floquet modal expansion method. Based on the accurate ECM, we can easily design the EM response of the proposed AP-RMTS at different operating frequencies. This flexibility allows the proposed design to be readily applicable to fit different scenarios in 5G wireless communications.

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