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太阳光谱金属-介质干涉型强吸收膜的研究

Strong Absorption Film of Metal-Dielectric Interference of Solar Spectrum

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摘要

随着军事隐形、太阳能转换以及激光热处理等技术研究的日益深入, 对表面吸收膜的技术要求不断提高。为满足太阳光谱吸收的要求, 研制了一种在400~2500 nm波段具有强吸收作用、适应多种基底的光学薄膜。通过分析吸收理论, 建立吸收结构模型, 并结合材料的特性研究, 实现了吸收膜的设计。采用真空离子辅助沉积技术, 根据逆向反演法, 对“分步沉积”工艺二次优化, 制备了太阳光谱强吸收膜。测试结果表明, 研制的吸收膜在400~2500 nm波段的平均吸收率为98.15%。制备的吸收膜通过了机械牢固度测试, 与基底能够很好地结合。

Abstract

With the deepening of research on the military stealth, solar energy conversion, laser heat treatment and other technologies, the technical requirements for surface absorption films are continuously improved. In order to meet the requirements of solar spectrum absorption, a novel optical film with strong absorption in the 400-2500 nm band is developed, which is applicable to multiple kinds of substrate. The absorption structure model is established based on the absorption theory, and the design of the absorption film is realized by combination of the characteristics of the materials. The solar spectrum strong absorption film is prepared based on the vacuum ion-assisted deposition technique and the fractional deposition process optimized by the reverse inversion method. The test results show that the average absorptance of the absorption film is 98.15% in the range of 400-2500 nm. The prepared absorption films can meet the requirement of mechanical fastness and have better adhesiveness to the substrate.

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中图分类号:O484

DOI:10.3788/cjl201744.0803002

所属栏目:材料与薄膜

基金项目:吉林省重大科技攻关专项(20140203002GX)

收稿日期:2017-05-02

修改稿日期:2017-05-31

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作者单位    点击查看

付秀华:长春理工大学光电工程学院, 吉林 长春 130022
郭 凯:长春理工大学光电工程学院, 吉林 长春 130022
张 静:长春理工大学光电工程学院, 吉林 长春 130022
熊仕富:长春理工大学光电工程学院, 吉林 长春 130022
姜洪妍:长春理工大学光电工程学院, 吉林 长春 130022
孙 兵:长春理工大学光电工程学院, 吉林 长春 130022

联系人作者:付秀华(goptics@126.com)

备注:付秀华(1963-), 女, 博士, 教授, 主要从事光学薄膜和现代光学加工技术等方面的研究。

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引用该论文

Fu Xiuhua,Guo Kai,Zhang Jing,Xiong Shifu,Jiang Hongyan,Sun Bing. Strong Absorption Film of Metal-Dielectric Interference of Solar Spectrum[J]. Chinese Journal of Lasers, 2017, 44(8): 0803002

付秀华,郭 凯,张 静,熊仕富,姜洪妍,孙 兵. 太阳光谱金属-介质干涉型强吸收膜的研究[J]. 中国激光, 2017, 44(8): 0803002

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