摘要
采用自主设计改造的温梯炉,成功生长了不同浓度Ho ^(3+)、Y ^(3+)掺杂的CaF_(2)及Sr_(x) Ca _(_(1-x)) F_(2)晶体,晶体尺寸约为∅15 mm×55 mm,生长周期约为6 d,能够实现7种不同浓度晶体的同步生长,并选取其中的4%(原子数分数)Ho,4%Y∶CaF_(2)晶体进行分析,吸收测试表明,该晶体448 nm和643 nm处吸收峰的吸收截面分别是1.13×10^(-20) cm^(2)和0.84×10^(-20) cm^(2),J-O理论分析得到了晶场强度参数Ω_(t)(t=2、4、6)、辐射跃迁几率、荧光分支比和辐射寿命。在448 nm氙灯激发下,经计算得到该晶体在546 nm、650 nm和752 nm处的发射截面分别为10.450×10^(-21) cm^(2)、8.737×10^(-21) cm^(2)和5.965×10^(-21) cm^(2),测得^(5)F_(4)和^(5)F_(5)能级的寿命分别为33.5μs和17.7μs。在640 nm LD泵浦激发下,经计算得到该晶体2031 nm处发射截面为5.375×10^(-21) cm^(2),2847 nm处发射截面为10.356×10^(-21)cm^(2),测得^(5)I_(7)和^(5)I_(6)能级的寿命分别为4.37 ms和1.85 ms。以上结果表明,多孔坩埚温梯法能够大大提高激光晶体稀土离子掺杂浓度筛选的效率,加快新型激光晶体材料的研发速度。
CaF_(2) and Sr_(x) Ca _(1-x) F_(2) crystals with different doping concentration of Ho ^(3+)and Y ^(3+)were successfully grown by the temperature gradient technique(TGT)in self-designed furnace,which can realize the synchronous growth of seven crystals with different doping concentration.The size of the grown crystals is about∅15 mm×55 mm,and the growth cycle is about 6 d.The spectral properties of 4%(atomic fraction)Ho,4%Y∶CaF_(2) crystals were tested and analyzed.The absorption cross section at 448 nm and 643 nm were 1.13×10^(-20) cm^(2) and 0.84×1010^(-20) cm^(2).J-O theory was applied to analyze fluorescence properties,the intensity parametersΩt(t=2,4,6),radiative transition rates,branching ratios and radiative lifetime were calculated.Excited by 448 nm xenon lamp at room temperature,the emission cross section at 546 nm,650 nm and 752 nm were calculated to be 10.450×10^(-21) cm 2,8.737×10^(-21) cm^(2) and 5.965×10^(-21) cm^(2),respectively,and the fluorescence lifetime of the Ho ^(3+)5F_(4) and ^(5)F_(5) level were measured to be 33.5μs and 17.7μs.Excited by 640 nm LD pump at room temperature,the emission cross section at 2031 nm and 2847 nm were calculated to be 5.375×10^(-21) cm^(2) and 10.356×10^(-21) cm^(2),respectively,and the fluorescence lifetime of the Ho ^(3+)5I 7 and ^(5)I _(6) level were measured to be 4.37 ms and 1.85 ms.All results show that the porous graphite crucible TGT method could greatly improve the efficiency of screening the doping concentration of rare earth ions in crystals,and speed up the research process of the new laser crystal materials.
作者
董建树
王庆国
徐军
薛艳艳
王无敌
曹笑
唐慧丽
吴锋
罗平
DONG Jianshu;WANG Qingguo;XU Jun;XUE Yanyan;WANG Wudi;CAO Xiao;TANG Huili;WU Feng;LUO Ping(Institute for Advanced Study,School of Physics Science and Engineering,Tongji University,Shanghai 200092,China)
出处
《人工晶体学报》
CAS
北大核心
2022年第2期200-207,共8页
Journal of Synthetic Crystals
基金
国家自然科学基金(61805177,52032009,61621001)。
关键词
氟化钙晶体
温度梯度法
晶体生长
多孔坩埚
激光晶体
光谱性能
calcium fluoride crystal
temperature gradient technology
crystal growth
porous crucible
laser crystal
spectral property