Guoxiang Dong, Xiaoping Li, Yanming Liu, A. Zhang, Song Xia, Zhuo Xu
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引用次数: 0
摘要
在这项工作中,非周期多类型单元的设计使得在设计的超表面上形成宽带随机相位梯度。由于这些随机相位梯度,入射波被扩散,从而导致RCS降低。重要的是,在线极化(LP)和圆极化(CP)入射波下,这些随机相位梯度在超表面上总是可用的,并且它们对CP波或LP波的极化状态不敏感。当LP波和CP波的入射角增大时,这些随机相位梯度在超表面上也存在。因此,实现了一个真正的偏振无关的超表面,用于宽带和广角RCS减小。对于LP和CP入射波,- 10 dB RCS降低频段为13.5GHz ~ 22 GHz。仿真和实验结果均表明,该超表面在隐身技术中具有潜在的应用前景。
A True Polarization-Independence Metasurface for Wideband RCS Reduction
In this work, the design of non-periodic multiple types of units makes wideband random phase gradients form on a designed metasurface. Because these random phase gradients, the incidence waves are diffused, which results in RCS reduction. Importantly, under both linearly polarized (LP) and circularly polarized (CP) incident waves, these random phase gradients are always available on the metasurface, and they are not sensitive to the polarization state for either CP waves or LP waves. When the incident angle of LP and CP waves is increased, these random phase gradients are also available on the metasurface. Therefore, a true polarization-independence metasurface is realized for wideband and wide-angle RCS reduction. For both LP and CP incident wave, −10 dB RCS reduction bands are from 13.5GHz to 22 GHz. Simulation and experiment results all show this proposed metasurface has potential application for stealth technology.
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