伪装
多光谱图像
太赫兹辐射
计算机科学
系统工程
雷达
掩蔽
红外线的
反射率
微波食品加热
遥感
电磁兼容性
光学
相容性(地球化学)
吸收(声学)
纳米技术
功能(生物学)
接口(物质)
材料科学
工程类
极化(电化学)
航空航天工程
电磁辐射
超材料
作者
Huiya Wang,Lu Zhou,Pei‐Yan Zhao,Yujie Huang,Yaofeng Zhu,Guangsheng Wang
标识
DOI:10.1002/admt.202501616
摘要
Abstract The rapid advancement of radar detection and communication technologies, coupled with the increasing complexity of electromagnetic (EM) environments, has driven the demand for multispectral‐compatible stealth materials that can function across microwave (MW), terahertz (THz), and infrared (IR) bands. This review systematically summarizes the recent progress in the design and development of ultrabroadband EM waves (EMWs) stealth materials. First, it clarifies the fundamental principle of achieving single‐spectrum stealth and the inherent challenges of multi‐spectrum compatibility, especially the contradictory requirements in different frequency bands. Designing multispectral compatible stealth materials requires a rational design of the multi‐scale structure and composition at both macro/micro level and atomic/molecular level. Subsequently, an analysis of the state‐of‐the‐art materials and structures, such as aerogels, multilayer composites, and macroscopic metamaterials, is carried out. Particular emphasis is placed on heterogeneous interface engineering, gradient design, bioinspired concepts, and intelligent responsive systems. Ultimately, potential solutions, including deepening the understanding of the loss mechanism and machine learning‐assisted material design, are presented to develop multifunctional, adaptive stealth systems. This review aims to provide valuable insights and inspiration to researchers in next‐generation multispectral‐compatible stealth technologies.
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