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1)  LiNbO_3 single crystal
铌酸锂单晶
2)  lithium niobate single crystal fiber
铌酸锂单晶光纤
1.
A magnesium ion indiffusion process is applied to lithium niobate single crystal fiber.
通过电子探针显微分析表明,铌酸锂单晶光纤经镁离子内扩散后,镁离子已完全扩散进晶纤内部,且扩散层镁离子浓度呈现抛物线形分布。
3)  magnesium-doped lithium niobate single crystal
掺镁铌酸锂单晶
4)  LiNbO3 crystal
铌酸锂晶体
1.
The electronic energy band structure and linear optical coefficient of LiNbO3 crystal were calculated by first-principle calculation pseudo-potential plane wave method in CASTEP package,and the nonlinear optical coefficient of LiNbO3 was calculated based on coupled Hatree-Fock(CPHF) model.
使用基于从头计算平面波赝势法的CASTEP量化软件计算了铌酸锂(LiNbO3)晶体的电子能带结构和线性光学系数,采用耦合微扰方法(CPHF)计算了铌酸锂晶体的非线性光学系数。
2.
According to the electro-optical characteristics of LiNbO3 crystal,the modulation principle of the electro-optical swing modulator is analyzed.
根据铌酸锂晶体的电光特性,分析了电光振幅调制器的调制原理,讨论了直流偏压对输出光波特性的影响。
3.
According to the basic principle of horizontal electro-optic effect,the method of conoscopic interference pattern is presented for polarizer and analyzer polarization direction well coincided with LiNbO3 crystal x,y optical axis.
基于电光效应的基本原理,讨论了铌酸锂(LiNbO3)晶体横向电光调制实验中利用锥光干涉图暗十字线图样确定起偏器和检偏器偏振方向分别平行于晶体x、y光轴的方法,及光强透过率曲线偏移对测量铌酸锂晶体半波电压的影响。
5)  lithium niobate wafer
铌酸锂晶片
1.
Large diameter lithium niobate wafers(76mm) were polished with chemical mechanical polishing method and SiO_2 Sol as polishing liquid.
本文采用化学机械抛光方法,以S iO2作为抛光液的研磨介质,对76mmZ切向的铌酸锂晶片的抛光进行了深入的研究。
6)  lithium niobate
铌酸锂晶体
1.
Dark decay of the optical damage in iron-doped lithium niobate crystals;
掺铁铌酸锂晶体中光损伤的暗衰减效应(英文)
2.
Influence of dopants on nonvolatile holographic storage in lithium niobate;
掺杂对铌酸锂晶体非挥发全息存储性能的影响
3.
The photorefractive properties of iron doped lithium niobate with different [Li]/ [Nb]ratios were investigated.
对不同锂铌比的掺铁铌酸锂晶体的光折变光栅的写入与擦除过程进行了研究,发现单中心模型已经不适用于近化学计量比掺铁铌酸锂晶体的光折变过程。
补充资料:铌酸锂晶体
分子式:LiNbO3 
CAS号:

性质:无色透明体。三方晶系,钛铁矿(畸变钙钛矿型)结构。熔点1253℃,密度4.648 g/cm3。莫氏硬度5,折射率n0=2.297,ne=2.208(λ=600nm),介电常数ε11=44,为铁电晶体,居里点1210℃。自发极化强度50×10-6C/cm2。以碳酸锂和五氧化二铌为原料,晶体在铂金坩埚中用提拉法生长。为一种具有压电、铁电、电光、非线性光学、热电等多性能材料,在微声技术中用于表面波、体波、换能器元件,激光技术中用于调Q开关。还可作全息记录介质材料。

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