使用金属光子晶体的偏振敏感机械可调微波滤波器

Q3 Physics and Astronomy

Results in Optics Pub Date : 2024-10-06 DOI:10.1016/j.rio.2024.100745

Sanaz Zarei

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引用次数: 0

摘要

本文介绍了一种基于可重构双层二维金属光子晶体的可调偏振敏感微波滤波器。滤波器由带有周期性孔洞的金属板和锚定在基底材料中的金属柱组成。金属柱的直径小于孔的直径，而且金属柱相对于孔的横向位置是可调的。我们研究了该装置对线性极化电磁辐射的传输，这些辐射分别与可移动薄膜的位移平行和垂直。垂直极化的调谐范围为 20.18 GHz 至 26.58 GHz，平行极化的调谐范围为 20.18 GHz 至 18.42 GHz。垂直极化的 3 dB 工作带宽为 3.82 GHz 至 6.44 GHz，平行极化的 3 dB 工作带宽为 3.42 GHz 至 3.82 GHz。实验数据与有限元法（FEM）模拟结果十分吻合。所提出的结构可扩展到其他频率范围，例如太赫兹频率。

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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Polarization-sensitive mechanically-tunable microwave filter using metallic photonic crystals

A tunable, polarization-sensitive microwave filter based on a reconfigurable dual-layered two-dimensional metallic photonic crystal is presented. The filter consists of a metallic plate with periodic holes and metal pillars which are anchored in a substrate material. The diameter of the pillars is smaller than that of the holes and the lateral position of the pillars with respect to the holes is tunable. We study the transmission of the device for linearly polarized electromagnetic radiation, which is polarized parallel and perpendicular to the displacement of the movable membrane, respectively. The tuning range spans from 20.18 GHz to 26.58 GHz for perpendicular polarization and from 20.18 GHz to 18.42 GHz for parallel polarization. The 3 dB operation bandwidth varies between 3.82 GHz and 6.44 GHz for perpendicular polarization and between 3.42 GHz and 3.82 GHz for parallel polarization. Experimental data are in good agreement with finite element method (FEM) simulations. The proposed structure is scalable to other frequency ranges such as terahertz frequencies.

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