项目名称: KDP/DKDP晶体元件新型功能化学膜研究
项目编号: No.U1230113
项目类型: 联合基金项目
立项/批准年度: 2013
项目学科: 物理学II
项目作者: 沈军
作者单位: 同济大学
项目金额: 50万元
中文摘要: 在ICF研究中,高功率激光装置要求频率转换KDP/DKDP晶体元件的溶胶-凝胶膜具有高激光损伤阈值、对环境稳定、防潮性能好且能量传输效率高的复合功能和特性。但由于DKDP晶体元件晶相转变温度低、对湿度特别敏感,在很大程度上限制了膜层制备和后处理工艺,从而对膜层性能产生较大的负面影响,无法满足未来装置的使用要求。本项目针对该现状,从溶胶特性和膜层结构的基础性研究入手,探索溶胶合成、微结构控制,及其微观、宏观特性与膜层最终性能之间的规律性关系。重点研究膜层的低温合成机理、制备和后处理工艺;膜层在强激光辐照及复合真空污染的特殊工作环境条件下的特性和演变规律,提高其强激光耐受性和抗污染能力,实现KDP/DKDP晶体溶胶-凝胶薄膜新型复合功能的工艺途径,为我国未来大型激光装置的KDP/DKDP晶体元件的新型化学膜制备工艺研究与应用提供必要的基础依据和实用或可借鉴的关键技术。
中文关键词: 溶胶-凝胶;减反膜;防潮;抗污染;激光损伤阈值
英文摘要: In ICF research, high laser damage threshold, high stability and good moisture-proof properties for the chemical coatings of the KDP/DKDP crystal frequency conversion elements are highly demanded for the high power laser systems. However, the crystal transition temperature of DKDP is relatively low, and it is quite sensitive to the moisture, these properties are considerably limiting the preparation and processing technology of the coatings, thus the properties of the coatings are quite limited, and they would not match the increasing demands for the future devices. To solve this problem, this research project firstly focuses on the fundamental research of the sol properties and the coating structures, then investigates sol synthesizing, micro-structure controlling, and the relationship between their micro and macro properties with the final functions of the coatings. Main emphasizes are put on the low temperature coating synthesizing mechanism, preparation and processing technologies; the properties and evolution rules of the coatings changing with the intense laser irradiation as well as the contamination of the special vacuum conditions; developing the coatings’ laser damage threshold and their abilities of the contamination resistance; realizing the new technology for the complex functional sol-gel coatings
英文关键词: Sol-gel;antireflective coating;moisture-proof;contamination resistant;laser-induced damage threshold