基于偏振转换和吸收混合机制的角度和偏振不敏感RCS还原超表面

IF 1.6 4区地球科学 Q3 ASTRONOMY & ASTROPHYSICS

Radio Science Pub Date : 2025-01-01 DOI:10.1029/2024RS008052

H. J. Zhao;X. Y. Dai;H. Chu;X. H. Zhu;Y. X. Guo

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引用次数: 0

摘要

本文介绍了一种利用偏振转换和吸收混合机制的角度和偏振不敏感雷达截面（RCS）减小超表面的概念、理论和设计。通过在三维结构的垂直维度上引入梯形和矩形金属贴片，可以抑制斜入射时等效衬底厚度增加所带来的极化转化率下降。此外，在每个极化转换单元的适当位置加载集总电阻，以实现功率吸收，同时保持PCR的角不灵敏度。利用上述混合机制，无论在宽范围和偏振方向上的入射角如何，都可以实现稳定的10db RCS降低。建立了一个等效电路模型来解释所提出的超表面的物理机制。为了验证，制作了一个原型并进行了测试。测量结果表明，对于正常入射的单稳态RCS和0°~ 45°的非正常入射的镜面RCS，在整个x波段（8-12 GHz）和ku波段（12-18 GHz）可以实现10 db的TE模式和tm模式RCS降低。

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Angle and polarization insensitive RCS reduction metasurface based on hybrid mechanism of polarization conversion and absorption

This article introduces the concept, theory, and design of an angle and polarization insensitive radar cross section (RCS) reduction metasurface, using a hybrid mechanism of polarization conversion and absorption. By introducing ladder- and rectangle-shaped metallic patches in the vertical dimension of a 3-D structure, polarization conversion rate (PCR) deterioration, brought by the increase of equivalent substrate thickness at oblique incidences, can be suppressed. Furthermore, lumped resistors are loaded at proper places in each polarization conversion cell, to achieve the power absorption while maintain the angular insensitivity of the PCR. With the above hybrid mechanism, a stable 10-dB RCS reduction can be achieved regardless of the angle of incidence in a wide range and polarization directions. An equivalent circuit model is established for explaining the physical mechanism of the proposed metasurface. For validation, a prototype is fabricated and tested. Measurement results indicate that, for both monostatic RCS at the normal incidence and specular RCS of off-normal incidences from 0° to 45°, a 10-dB TE- and TM-mode RCS reduction can be achieved in the entire X-band (8–12 GHz) and Ku-band (12–18 GHz).

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来源期刊

Radio Science 工程技术-地球化学与地球物理

CiteScore

3.30

自引率

12.50%

发文量

112

审稿时长

1 months

期刊介绍： Radio Science (RDS) publishes original scientific contributions on radio-frequency electromagnetic-propagation and its applications. Contributions covering measurement, modelling, prediction and forecasting techniques pertinent to fields and waves - including antennas, signals and systems, the terrestrial and space environment and radio propagation problems in radio astronomy - are welcome. Contributions may address propagation through, interaction with, and remote sensing of structures, geophysical media, plasmas, and materials, as well as the application of radio frequency electromagnetic techniques to remote sensing of the Earth and other bodies in the solar system.