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Flexible and Transparent Microwave–Infrared Bistealth Structure
Author(s) -
Zhang Changlei,
Wu Xiaoyu,
Huang Cheng,
Peng Jinqiang,
Ji Chen,
Yang Jianing,
Huang Yijia,
Guo Yinghui,
Luo Xiangang
Publication year - 2019
Publication title -
advanced materials technologies
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 2.184
H-Index - 42
ISSN - 2365-709X
DOI - 10.1002/admt.201900063
Subject(s) - materials science , infrared , microwave , emissivity , optoelectronics , metamaterial , opacity , low emissivity , indium tin oxide , absorption (acoustics) , far infrared , optics , layer (electronics) , nanotechnology , physics , composite material , telecommunications , computer science
A flexible and transparent microwave–infrared bistealth structure is proposed to avoid composite detection in the microwave and infrared bands. By combining intrinsic material properties with proper design, the proposed flexible metamaterial can simultaneously achieve high absorption in the microwave band, low emission the in infrared band, and optical transparency. The structure exhibits wide‐angle (40°), broadband (7.7–18 GHz), and high‐efficiency (>90%) absorption. Furthermore, by using the structure to cover a metallic column, a 10 dB reduction in radar cross section at 7.5–18 GHz is achieved. The thermal emissivity of the structure is about 0.23 in the infrared atmosphere window, which is close to that of metal. It is optically transparent and flexible due to the use of indium tin oxide films and polyvinyl chloride substrates. These unique and interesting properties promise it will find potential applications in various stealth fields.