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Experimental demonstration of an ultra-thin radar-infrared bi-stealth rasorber

Kaihuai Wen, Tiancheng Han, Haipeng Lu, Wei Luo, Linbo Zhang, Haiyan Chen, Difei Liang, Longjiang Deng

2021Optics Express41 citationsDOIOpen Access PDF

Abstract

We propose a radar-infrared bi-stealth rasorber that not only provides broad microwave absorptivity and low infrared emissivity but also possesses a microwave transmission window at low frequency. It is composed of three functional layers, which are carefully designed to independently control the infrared emission, microwave absorption, and transmission, respectively. The structure exhibits broadband (8.1-19.3 GHz) and high-efficiency (>90%) absorption. A transmission window appears at low frequency with a transmission peak of 80% at 2.68 GHz. The thermal emissivity of the structure is about 0.27 in the atmosphere window, which is close to that of metal. Moreover, the total thickness of the proposed structure is only 3.713 mm. The low-infrared-emissivity, high-microwave-absorption and frequency-selective-transmission properties promise it will find potential applications in various stealth fields.

Topics & Concepts

EmissivityMaterials scienceMicrowaveInfraredOpticsAbsorption (acoustics)Infrared windowLow emissivityOptoelectronicsMolar absorptivityTransmission (telecommunications)RadarPhysicsTelecommunicationsQuantum mechanicsComputer scienceAdvanced Antenna and Metasurface TechnologiesMetamaterials and Metasurfaces ApplicationsPhotonic Crystals and Applications
Experimental demonstration of an ultra-thin radar-infrared bi-stealth rasorber | Litcius