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李孜涵, 陈名松, 田硕. 基于超表面的双频带极化不敏感吸波器[J]. 桂林电子科技大学学报, 2023, 43(6): 459-464. DOI: 10.3969/1673-808X.2021438
引用本文: 李孜涵, 陈名松, 田硕. 基于超表面的双频带极化不敏感吸波器[J]. 桂林电子科技大学学报, 2023, 43(6): 459-464. DOI: 10.3969/1673-808X.2021438
LI Zihan, CHEN Mingsong, TIAN Shuo. Dual-band polarization insensitive wave absorber based on metasurface[J]. Journal of Guilin University of Electronic Technology, 2023, 43(6): 459-464. DOI: 10.3969/1673-808X.2021438
Citation: LI Zihan, CHEN Mingsong, TIAN Shuo. Dual-band polarization insensitive wave absorber based on metasurface[J]. Journal of Guilin University of Electronic Technology, 2023, 43(6): 459-464. DOI: 10.3969/1673-808X.2021438

基于超表面的双频带极化不敏感吸波器

Dual-band polarization insensitive wave absorber based on metasurface

  • 摘要: 针对现代雷达隐身技术对超表面吸波器高吸收率和多频带特性的需求,利用简单的圆形和三角形金属结构,设计了一种双频带极化不敏感的超表面吸波器,其能够更好地减小雷达散射截面积。该吸波器的吸波频段和吸波率大小主要由其几何结构参数决定,通过设计表面金属结构,使其具有2个吸波频带。CST软件仿真结果表明,该吸波器在10.11 GHz时的吸波率为98.1%,在15.63 GHz时的吸波率为99.8%。由于单元结构为轴对称,器件具有极化不敏感特性。该超表面结构简单而紧凑,满足了雷达隐身的设计需求,并为多频带极化不敏感超表面器件的研究和设计提供了新思路。

     

    Abstract: Aiming at the requirements of modern radar stealth technology for high absorption rate and multi-band characteristics of metasurface absorbers, a dual-band polarization-insensitive metasurface absorber was designed by using simple circular and triangular metal structures, and it can Better reduce the cross-sectional area of radar scattering. The absorbing frequency band and absorbing rate of the wave absorber are mainly determined by its geometric structure parameters, and the surface metal structure was cleverly designed to make it have two absorbing frequency bands. The CST software simulation results show that the absorption rate of the absorber is 98.1% at 10.11 GHz and 99.8% at 15.63 GHz. Because the unit structure is axisymmetric, the device is polarization insensitive. The structure of the metasurface is simple and compact, which meets the design requirements of radar stealth, and provides a new idea for the research and design of multi-band polarization-insensitive metasurface devices.

     

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