哈尔滨工程大学学报
哈爾濱工程大學學報
합이빈공정대학학보
Journal of Harbin Engineering University
2015年
10期
1409-1412
,共4页
方双全%黄新%马德才%张贺新
方雙全%黃新%馬德纔%張賀新
방쌍전%황신%마덕재%장하신
铌酸锂晶体%近化学计量比%缺陷结构%取代机理%阈值%铟
鈮痠鋰晶體%近化學計量比%缺陷結構%取代機理%閾值%銦
니산리정체%근화학계량비%결함결구%취대궤리%역치%인
LiNbO3 crystals%near-stoichiometric%defect structure%replacement principle%threshold%indium
为了探讨抗光损伤介质在近化学计量比铌酸锂晶体中的占位机制,采用顶部籽晶助熔剂方法( TSSG)生长了不同铟含量的近化学计量比铌酸锂( In:SLN)晶体,利用X射线衍射、差热分析,紫外-可见吸收光谱及红外光谱测试并研究了晶体中的缺陷结构变化规律. 分析发现在近化学计量比铌酸锂晶体中,In2 O3的阈值浓度介于1%~1.5%. 缺陷结构研究表明,当In2 O3掺杂量低于阈值浓度时,In3+离子优先取代Nb4+Li ,形成In2+Li离子;当In2 O3掺杂浓度高于阈值浓度时, In3+离子开始同时占据正常的Li与Nb位,形成In2+Li-In2-Nb电荷自补偿结构.
為瞭探討抗光損傷介質在近化學計量比鈮痠鋰晶體中的佔位機製,採用頂部籽晶助鎔劑方法( TSSG)生長瞭不同銦含量的近化學計量比鈮痠鋰( In:SLN)晶體,利用X射線衍射、差熱分析,紫外-可見吸收光譜及紅外光譜測試併研究瞭晶體中的缺陷結構變化規律. 分析髮現在近化學計量比鈮痠鋰晶體中,In2 O3的閾值濃度介于1%~1.5%. 缺陷結構研究錶明,噹In2 O3摻雜量低于閾值濃度時,In3+離子優先取代Nb4+Li ,形成In2+Li離子;噹In2 O3摻雜濃度高于閾值濃度時, In3+離子開始同時佔據正常的Li與Nb位,形成In2+Li-In2-Nb電荷自補償結構.
위료탐토항광손상개질재근화학계량비니산리정체중적점위궤제,채용정부자정조용제방법( TSSG)생장료불동인함량적근화학계량비니산리( In:SLN)정체,이용X사선연사、차열분석,자외-가견흡수광보급홍외광보측시병연구료정체중적결함결구변화규률. 분석발현재근화학계량비니산리정체중,In2 O3적역치농도개우1%~1.5%. 결함결구연구표명,당In2 O3참잡량저우역치농도시,In3+리자우선취대Nb4+Li ,형성In2+Li리자;당In2 O3참잡농도고우역치농도시, In3+리자개시동시점거정상적Li여Nb위,형성In2+Li-In2-Nb전하자보상결구.
In order to investigate the occupation mechanism of anti-photo-damage media in the near-stoichiometric LiNbO3 crystals, the near-stoichiometric In:LiNbO3( In:SLN) crystals with different indium contents were grown by the top seed solution growth ( TSSG) method. The defect structure evolution was derived from the X-ray powder dif-fraction, differential thermal analysis ( DTA ) , ultraviolet-visible ( UV ) absorption and infrared ( IR ) spectrum measurement. The analysis implies that the threshold concentration of In2 O3 in near-stoichiometric LiNbO3 crystals was between 1% and 1.5%. The investigation of defect structure indicates that In3+ions first replace Nb4+Li to obtain In2+Li ions when the doping content of In2 O3 is less than the threshold concentration. Conversely, In3+ ions begin to occupy normal Li and Nb sites to obtain In2+Li-In2-Nb compensation structure when the In2 O3 doping content is more than the threshold concentration.