To achieve radar and infrared stealth, an infrared stealth layer is usually added to the radar absorbing material(RAM) of stealth aircraft. By analyzing the millimeter-wave(MMW) emissivities of three stealth mater...To achieve radar and infrared stealth, an infrared stealth layer is usually added to the radar absorbing material(RAM) of stealth aircraft. By analyzing the millimeter-wave(MMW) emissivities of three stealth materials, this Letter investigates the impact of the added infrared stealth layer on the originally "hot" MMW emission of RAM. The theoretical and measured results indicate that, compared with the monolayer RAM, the MMW emission of the bilayer material is still strong and its emissivity is reduced by 0.1–0.2 at almost every incident angle.The results partially demonstrate the feasibility of detecting stealth aircraft coated with this bilayer stealth material.展开更多
基金supported partially by the Shanghai Spaceflight Technology Renovation Fund(No.SAST2015088)the Fundamental Research Fund for the Central Universities(No.HUST2015QN093)
文摘To achieve radar and infrared stealth, an infrared stealth layer is usually added to the radar absorbing material(RAM) of stealth aircraft. By analyzing the millimeter-wave(MMW) emissivities of three stealth materials, this Letter investigates the impact of the added infrared stealth layer on the originally "hot" MMW emission of RAM. The theoretical and measured results indicate that, compared with the monolayer RAM, the MMW emission of the bilayer material is still strong and its emissivity is reduced by 0.1–0.2 at almost every incident angle.The results partially demonstrate the feasibility of detecting stealth aircraft coated with this bilayer stealth material.