Broadband, High-Temperature Stable Reflector for Aerospace Thermal Radiation Protection

A simple and thermally stable photonic heterostructure exhibiting high average reflectivity (〈R〉≈88.8%) across a broad wavelength range (920–1450 nm) is presented. The design combines a thin, highly reflective and broadband metallic substrate (Ta) with an optimized dielectric coating (10 layers) to create an enhanced reflector with improved optical and thermal properties compared to its constituents. The heterostructure exhibits temperature-reversible reflective properties up to 1000 °C. In order to take advantage of the high reflectivity and temperature stable properties of this coating, in a wide range of non-photonic composite materials, we have fabricated heterostructure platelets as additives. This way, composite materials can be photonically enhanced by the impregnation with such additives. Platelets of such a heterostructure have been introduced inside an organic matrix to validate their broadband reflection performance. The platelet-impregnated matrix displays an average reflectivity improvement f...