Tunable thermal camouflage based on gst plasmonic metamaterial

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Abstract

Thermal radiation control has attracted increasing attention in a wide range of field, including infrared detection, radiative cooling, thermal management, and thermal camouflage. Previously reported thermal emitters for thermal camouflage presented disadvantages of lacking either tunability or thermal stability. In this paper, we propose a tunable thermal emitter consisting of metal-insulator-metal (MIM) plasmonic metamaterial based on phase-change material Ge2Sb2Te5 (GST) to realize tunable control of thermal radiation in wavelength ranges from 3 µm to 14 µm. Meanwhile, the proposed thermal emitter possesses near unity emissivity at the wavelength of 6.3 µm to increase radiation heat dissipation, maintaining the thermal stability of the system. The underlying mechanism relies on fundamental magnetic resonance and the interaction between the high-order magnetic resonance and anti-reflection resonance. When the environmental background is blackbody, the tunable emitter maintains signal reduction rates greater than 80% in middle-IR and longer-IR regions from 450 K to 800 K and from room temperature to 800 K, respectively. The dependences of thermal camouflage on crystallization fraction of GST, incident angles and polarization angles have been investigated in detail. In addition, the thermal emitter can continuously realize thermal camouflage for various background temperatures and environmental background in atmospheric window in the range of 3–5 µm.

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APA

Kang, Q., Li, D., Guo, K., Gao, J., & Guo, Z. (2021). Tunable thermal camouflage based on gst plasmonic metamaterial. Nanomaterials, 11(2), 1–12. https://doi.org/10.3390/nano11020260

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