Multiband metamaterial emitters for infrared and laser compatible stealth with thermal management based on dissipative dielectrics
材料科学
算法
计算机科学
作者
Kun Yu,Wei Zhang,Mengdan Qian,Peng Shen,Yufang Liu
出处
期刊:Photonics Research [The Optical Society] 日期:2023-02-01卷期号:11 (2): 290-290被引量:25
标识
DOI:10.1364/prj.476109
摘要
The modulation of thermal radiation in the infrared region is a highly anticipated method to achieve infrared sensing and camouflage. Here, a multiband metamaterial emitter based on the Al/SiO2/Al nanosandwich structure is proposed to provide new ideas for effective infrared and laser-compatible camouflage. By virtue of the intrinsic absorption and magnetic resonance property of lossy materials, the thermal radiation in the infrared region can be rationally modulated. The fabricated samples generally present low emissivity ( ε3–5μm=0.21 , ε8–14μm=0.19 ) in the atmospheric windows to evade infrared detection as well as high emissivity ( ε5–8μm=0.43 ) in the undetected band for energy dissipation. Additionally, the laser camouflage is also realized by introducing a strong absorption at 10.6 μm through the nonlocalized plasmon resonance of the SiO2 layer. Moreover, the fabricated emitter shows promising prospects in thermal management due to the good radiative cooling property that is comparable to the metallic Al material. This work demonstrates a multiband emitter based on the metasurface structure with compatible infrared-laser camouflage as well as radiative cooling properties, which is expected to pave new routes for the design of thermal radiation devices.