Optimization of wideband RCS reduction via controlled phase and amplitude in metasurface design

被引:0
|
作者
Junpeng Wang
Qizhi Zhao
Feiyan Fu
Kejun Wang
Zhengwei Ye
Sheng Yin
Hua Wang
Luoxin Wang
机构
[1] Aerospace Science and Industry Corporation of Wuhan Magnetoelectricity Co.,College of Materials Science and Engineering, Key Laboratory for New Textile Materials and Applications of Hubei Province
[2] Ltd.,undefined
[3] State Key Laboratory of NBC Protection for Civilian,undefined
[4] Wuhan Textile University,undefined
来源
Applied Physics A | 2024年 / 130卷
关键词
Absorptive metasurface; Phase- and amplitude-control; Topology optimization; RCS reduction;
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学科分类号
摘要
In this study, we introduce a strategy for constructing an absorptive metasurface, which integrates the absorption and phase cancellation mechanisms. Through topological optimization and the synthesis of a checkerboard metasurface array, we achieve a significant reduction in ultra-wideband RCS. A prototype of the suggested design is produced and tested to confirm the effectiveness of the absorptive coding metasurface. When compared to a metallic plate of the same dimensions, a notable decrease in reflection is observed within the 4.0–12.0 GHz range. The RCS reduction exceeds 15 dB within the same frequency range (the fractional bandwidth is 100%). The proposed methods of phase and amplitude control, along with topological optimization, prove to be efficient strategies for wideband RCS reduction applications.
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