硅酸盐通报
硅痠鹽通報
규산염통보
BULLETIN OF THE CHINESE CERAMIC SOCIETY
2009年
6期
1230-1234
,共5页
近化学计量比Mg∶Fe∶LiNbO_3晶体%顶部籽晶熔融法%光折变性能
近化學計量比Mg∶Fe∶LiNbO_3晶體%頂部籽晶鎔融法%光摺變性能
근화학계량비Mg∶Fe∶LiNbO_3정체%정부자정용융법%광절변성능
near stoichiometric Mg∶ Fe∶ LiNbO_3%top-seeded solution growth method%photorefractive property
以K_2O作为助熔剂,采用顶部籽晶熔融法生长近化学计量比Mg∶ Fe∶ LiNbO_3晶体.测试了晶体的紫外-可见吸收光谱、红外光谱、抗光损伤能力以及衍射效率.结果表明:随掺Mg量的增加,近化学计量比Mg∶ Fe∶ LiNbO_3晶体的紫外吸收边先紫移后红移,晶体的衍射效率减小,抗光损伤能力增加.OH-吸收峰出现双峰结构,给出了掺杂离子的占位模型.晶体中[Li]/[Nb]比在49.7~49.8%之间.确定了掺Mg的阈值浓度在2~3%(物质的量百分比,下同)之间.
以K_2O作為助鎔劑,採用頂部籽晶鎔融法生長近化學計量比Mg∶ Fe∶ LiNbO_3晶體.測試瞭晶體的紫外-可見吸收光譜、紅外光譜、抗光損傷能力以及衍射效率.結果錶明:隨摻Mg量的增加,近化學計量比Mg∶ Fe∶ LiNbO_3晶體的紫外吸收邊先紫移後紅移,晶體的衍射效率減小,抗光損傷能力增加.OH-吸收峰齣現雙峰結構,給齣瞭摻雜離子的佔位模型.晶體中[Li]/[Nb]比在49.7~49.8%之間.確定瞭摻Mg的閾值濃度在2~3%(物質的量百分比,下同)之間.
이K_2O작위조용제,채용정부자정용융법생장근화학계량비Mg∶ Fe∶ LiNbO_3정체.측시료정체적자외-가견흡수광보、홍외광보、항광손상능력이급연사효솔.결과표명:수참Mg량적증가,근화학계량비Mg∶ Fe∶ LiNbO_3정체적자외흡수변선자이후홍이,정체적연사효솔감소,항광손상능력증가.OH-흡수봉출현쌍봉결구,급출료참잡리자적점위모형.정체중[Li]/[Nb]비재49.7~49.8%지간.학정료참Mg적역치농도재2~3%(물질적량백분비,하동)지간.
Near stoichiometric Mg∶ Fe∶ LiNbO_3 crystals were grown by top-seeded solution growth method with K_2O as fluxing medium. UV-Vis spectra, IR spectra, photodamage resistance ability and diffraction efficiency are measured. The results show that with the increase of doped Mg, the absorption edge of crystals shift to the violet firstly, and then shift to infrared. The photodamage resistance ability increases, but the diffraction efficiency decreases. The OH- absorption peak is bimodal distribution. Location model of doped Mg, Fe ions are given. [Li]/[Nb] ratio in crystals, attributed indirectly, is about 49.7-49.8%, the threshold concentration of Mg in doped near stoichiometric LiNbO_3 crystals is between 2% and 3%.
