无机材料学报2025,Vol.40Issue(5):529-535,7.DOI:10.15541/jim20240456
熔融法制备Nd:YLF原料及其晶体生长和性能研究
Nd:YLF Crystal Growth:Raw Materials Preparation by Melting Method and Property
摘要
Abstract
Nd3+-doped LiYF4(Nd:YLF)crystal is a laser crystal with excellent performance,which is widely used in scientific research,industrial and medical fields.But its existing crystal growth method using binary fluoride mixtures is problematic due to fluoride oxides being formed in fluoride raw materials,and process of preparing raw materials by using HF gas fluorination is relatively complicated.Therefore,preparation of high-purity fluoride raw materials is one of the important factors to realize the growth of high-quality fluoride crystals.Meanwhile,crystal growth atmosphere usually contains CF4 or HF,which is highly corrosive to growth system and increases cost of crystal growth.In this work,to obtain high-quality Nd:YLF crystal,the polycrystalline growth raw material with high-purity YLF crystalline phase was first prepared using a nearly closed melting material device,which was a novel design facilitating the melting process and floating salvage process at the temperature above the crystal melting point.Intact Nd:YLF crystal was obtained after growth under a high-purity Ar atmosphere.X-ray diffraction(XRD)patterns of polycrystalline raw materials and growing crystals were tested,while lattice parameters,atomic coordinates,atomic occupancy and temperature factor were obtained by Rietveld refinement.By measuring X-ray rocking curve(XRC)of(100)crystallographic plane of the as-obtained Nd:YLF crystal,the full width at half maximum(FWHM)of diffraction peak is 0.007°.The segregation coefficient of Nd3+in YLF calculated by measuring the content of each element is 0.3.The strongest absorption peaks of Nd:YLF crystal locate at 797.4 nm(a direction)and 792.3 nm(c direction)with absorption cross sections of 3.37×10-20 and 5.49×10-20 cm2,respectively.The strongest emission peak of Nd:YLF crystal locates at 1047 nm with stimulated emission cross section of 1.598×10-19 cm2 and fluorescence lifetime of 483 μs.Based on above data,Nd:YLF polycrystalline raw materials prepared by melting method achieve high phase purity.Combined with Czochralski method of crystal growth with vacuum extraction and heating process,the present growth method can greatly reduce the formation of fluoride oxide during the growth process,which proves a successful growth under Ar atmosphere.关键词
Nd:YLF/激光晶体/晶体结构/光谱分析Key words
Nd:YLF/laser crystal/crystal structure/spectral analysis分类
数理科学引用本文复制引用
赵凯旋,刘文鹏,丁守军,窦仁勤,罗建乔,高进云,孙贵花,任浩,张庆礼..熔融法制备Nd:YLF原料及其晶体生长和性能研究[J].无机材料学报,2025,40(5):529-535,7.基金项目
安徽省科技重大专项(202203a05020002) (202203a05020002)
国家自然科学基金(52272011) (52272011)
国家重点研究发展计划(2022YFB3605703,2023YFB3507403) (2022YFB3605703,2023YFB3507403)
中国科学院青年创新促进会(2023463)Anhui Province Science and Technology Major Project(202203a05020002) (2023463)
National Natural Science Foundation of China(52272011) (52272011)
National Key R&D Program of China(2022YFB3605703,2023YFB3507403) (2022YFB3605703,2023YFB3507403)
Youth Innovation Promotion Association(2023463) (2023463)
