Progress in Dynamically Modulated Electromagnetic Absorbing Materials

LI Zeqin; SONG Zicheng; ZHANG Ruicong; WANG Tianyu; ZHANG Zhibo; ZHU Jiaqi

doi:10.16080/j.issn1671-833x.25010112

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Progress in Dynamically Modulated Electromagnetic Absorbing Materials

更新时间：2026-03-27

- Progress in Dynamically Modulated Electromagnetic Absorbing Materials
- Aeronautical Manufacturing Technology Vol. 69, Issue 1/2, (2026)
- 作者机构：
  
  1. 哈尔滨工业大学航天学院复合材料与结构研究所,哈尔滨,150006
  2. 哈尔滨工业大学郑州研究院,郑州,450018
  3. 哈尔滨工业大学能源科学与工程学院,哈尔滨,150006
- 作者简介：
- 基金信息：
- DOI：10.16080/j.issn1671-833x.25010112
  CLC：
- Published：2026
- 稿件说明：
移动端阅览
LI Zeqin, SONG Zicheng, ZHANG Ruicong, et al. Progress in Dynamically Modulated Electromagnetic Absorbing Materials[J]. Aeronautical Manufacturing Technology, 2026, 69(1/2).
DOI：

LI Zeqin, SONG Zicheng, ZHANG Ruicong, et al. Progress in Dynamically Modulated Electromagnetic Absorbing Materials[J]. Aeronautical Manufacturing Technology, 2026, 69(1/2). DOI： 10.16080/j.issn1671-833x.25010112.

摘要

传统电磁吸收材料的电磁性能固定，难以适应环境电磁背景随时间和空间的动态变化。随着合成孔径雷达（SAR）等高分辨雷达成像系统的发展，目标与环境之间的电磁反射差异可被精确识别，显著提高了目标暴露的风险。为实现成像条件下伪装，亟须发展在微波段具备动态调控能力的电磁吸收材料，通过调控其电磁响应特性与环境保持一致，从而降低可探测性。随着新型材料与器件体系和形变调控机制的发展，使得宽频带、大调制深度的电磁吸收调控逐渐成为可能。本文综述了石墨烯、二极管、流体等代表性材料体系以及机械形变调控方案在电磁吸收调控方面的研究进展，分析了各类技术电磁调控机理，并对拓展电磁调控带宽、扩大电磁调控幅度的设计策略进行了总结。最后对动态调控电磁吸收材料未来发展方向进行了展望。

Abstract

Conventional electromagnetic (EM) absorbing materials exhibit fixed EM properties

limiting their ability to adapt to spatiotemporal variations in the ambient EM environment. With the advancement of high-resolution radar imaging systems such as synthetic aperture radar (SAR)

the EM reflection differences between targets and their surroundings can be precisely identified

significantly increasing the risk of target exposure. To achieve effective camouflage under imaging conditions

it is imperative to develop dynamically tunable EM absorbing materials operating in the microwave band that can modulate their EM responses to match the environment

thereby reducing detectability. Recent progress in novel material and device systems

as well as deformation-driven modulation mechanisms

has enabled the realization of broadband EM absorption with large modulation depth. This review summarizes research advances in representative material systems including graphene

diodes

and fluidic media

alongside mechanical deformation-based modulation approaches. The EM modulation mechanisms of various technologies are analyzed

and design strategies for extending modulation bandwidth and enhancing modulation depth are discussed. Finally

future development directions of dynamically tunable EM absorbing materials are proposed.

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