Effects of a Simulated High-Energy Space Environment on a LaF3/MgF2 Multilayer

OPTICAL MATERIALS EXPRESS(2023)

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摘要
Due to their low absorption, the LaF3/MgF2 material pair is widely used in the far-ultraviolet space payload. In the space environment, there are plenty of energetic particles (electrons, protons, gamma rays, and atomic oxygen) and strong ultraviolet lines. These energetic particles penetrate into the films, and may change the materials' physical and chemical structures. Hence, these energetic particles and ultraviolet lines may degrade the performance of LaF3/MgF2. We examined the effect of a simulated high-energy space environment on a LaF3/MgF2 multilayer. Dendritic patterns were observed in LaF3/MgF2 multilayer irradiated by the 30 keV electrons. The generation mechanism was proposed. This pattern was gradient wrinkle delamination due to the electric discharge, and it was non-uniform, asymmetric. This problem can be avoided by decreasing the substrate heating temperature and lay number (total thickness), and choosing the fluoride material substrate. The LaF3/MgF2 multilayer demonstrated no changes after the irradiation of the protons, gamma rays, atomic oxygen, and ultraviolet lines. (c) 2023 Optica Publishing Group under the terms of the Optica Open Access Publishing Agreement
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Multilayer Insulation
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