光学学报, 2017, 37 (1): 0131001, 网络出版: 2017-01-13
基于VO2相变的热致型智能辐射器设计
Design of Thermochromic Smart Radiation Device Based on VO2 Phase Change
薄膜 智能辐射器 发射率 二氧化钒 减反膜 thin films smart radiation device emittance vanadium dioxide anti-reflection coating
摘要
基于VO2/Si3N4/Al结构设计了一种发射率可调控的智能辐射器 (SRD)。通过薄膜特征矩阵理论SRD的光学特性进行分析, 结果表明VO2的厚度决定了SRD的辐射能力, 其调控光谱范围与介质层Si3N4的厚度密切相关, 优化后的SRD发射率调控范围为0.38。采用MgF2/Si3N4双层减反膜进一步优化SRD, 使其低温(20 ℃)和高温(100 ℃)发射率分别达到0.30和0.91, 调控范围扩大至0.61。利用有限时域差分法分析了有无减反膜时SRD的辐射场分布, 结果表明减反膜可以提高SRD的温度调控效率, 增强空间复杂环境适应能力。设计思路对高性能SRD的制备和航天器热控系统的轻量化具有重要意义。
Abstract
A smart radiation device (SRD) of VO2/Si3N4/Al structure with tunable emittance is designed. The optical properties of SRD are studied through the optical thin film characteristic matrix analytical method. The results show that emission properties of SRD are determined by the thickness of VO2 and the modulation wavelength range is related to the thickness of Si3N4 dielectric layer. The emittance tunability of the optimized SRD is 0.38. The SRD with MgF2/Si3N4 bi-layer anti-reflection coating presents an emittance of 0.30 at 20 ℃ and 0.91 at 100 ℃, and the tunability is increased to 0.61. The finite difference time domain method is used to analyze the modulated radiation distribution of SRDs with or without anti-reflection coating. It is proved that the added anti-reflection coating can improve the emittance-switching efficiency of SRD and enhance its adaptability in complex environment. The method can give reference to the design of high performance SRD and meets the need for a lighter thermal control device of spacecraft.
蒋蔚, 李毅, 陈培祖, 伍征义, 徐婷婷, 刘志敏, 张娇, 方宝英, 王晓华, 肖寒. 基于VO2相变的热致型智能辐射器设计[J]. 光学学报, 2017, 37(1): 0131001. Jiang Wei, Li Yi, Chen Peizu, Wu Zhengyi, Xu Tingting, Liu Zhimin, Zhang Jiao, Fang Baoying, Wang Xiaohua, Xiao Han. Design of Thermochromic Smart Radiation Device Based on VO2 Phase Change[J]. Acta Optica Sinica, 2017, 37(1): 0131001.