1)Potassium lithium niobate铌酸钾锂
1.Potassium lithium niobate (KLN) has good photoelectric,piezoelectric and nonlinear optical properties,which has broad application in integrated optics and integrated circuits.铌酸钾锂具有良好的光电、压电及非线性光学性能,在集成光学、集成电路等领域具有广阔的应用前景。
2.Raman spectra of a batch of potassium lithium niobate(KLN) crystals with different compositions were investigated.测量了一批不同组分的铌酸钾锂晶体Ram an光谱,发现晶体中位于C格位的L i离子浓度对晶体Ram an光谱产生了强烈的影响:低L i含量晶体中[NbO6]7-八面体所对应的3个Ram an特征光谱线没有发生峰分裂,在100~400 cm-1范围出现的小峰与C格位L i离子浓度相关;当晶体中L i离子浓度增加时,与ν5所对应的Ram an峰在散射几何为X(ZY)Z对应的光谱中加宽,ν2振动模式在两种散射几何中均出现分裂峰,并在100~400 cm-1范围出现小峰数量增多;当L i离子浓度接近晶体化学组分时,微扰进一步加强,5ν所对应峰分裂成3个峰,ν1和ν2振动模式发生部分分裂,在100~400 cm-1范围小峰更为突出。
3.A series of potassium lithium niobate (KLN) crystals with large size and good homogeity for composional ions have been grown.用电阻加热提拉法生长了一系列较大尺寸 ,组分离子均匀性较好的铌酸钾锂晶体。
英文短句/例句
1.Photocarrier Transport in Potassium Lithium Tantalate Niobate Crystal钽铌酸钾锂晶体载流子迁移性能研究
2.Study on Four-Wave Mixing Phase Conjugation of Paraelectric KLTN Crystal顺电相钽铌酸钾锂晶体四波混频相位共轭特性研究
3.Special Vibration Behavior of KLN Crystal Lattice near Ferroelectric Phase Transition Area铁电相变区附近铌酸钾锂晶体的特殊晶格振动行为
4.Study on Lithium Sodium Potassium Niobate Novel Biological Piezoelectric Ceramic;铌酸锂钠钾新型生物压电陶瓷的研究
5.Nano-sized Powders of(Li_(0.06)Na_(0.47)K_(0.47))NbO_3 Synthesized by a Novel Sol-Gel Method新型溶胶-凝胶法制备铌酸锂钠钾纳米粉体
6.Preparation and Phase Transformation of(Li_(0.06)Na_(0.47)K_(0.47))NbO_3 Nano-powders Derived from Sol-gel Process铌酸锂钠钾纳米粉体的溶胶-凝胶法合成及其相转变
7."Test method for extinction ratio of LN, KDP and KDP electrooptic crystal"GB/T11297.12-1989电光晶体铌酸锂、磷酸二氢钾和磷酸二氘钾消光比的测量方法
8.Lithium niobate single crystalsGB/T14843-1993铌酸锂单晶
9.Influence of Li Composition on the Photorefractive Properties of Pure Lithium Niobate Crystals锂组分对纯铌酸锂晶体光折变性能的影响研究
10.The Research on Volume Holographic Storage of Doping LiNbO_3 Crystal;掺杂铌酸锂晶体体全息存储特性研究
11.Study on Growth and Properties of Lithium Niobate Doped with Indium;掺铟铌酸锂晶体的生长及其性能研究
12.Frequency Conversion Based on Periodically Poled Lithium Niobate Waveguide;周期极化铌酸锂波导的频率变换研究
13.Study on Growth and Spectrum Properties of Lithium Niobate Doped with Magnesium and Erbium;镁铒铌酸锂晶体生长及光谱特性研究
14.Study of the Effect of Chemical Reaction on the Crystallization Behaviors of Lithium Niobate影响铌酸锂结晶行为的化学反应研究
15.Mg Effect on Spectroscopic Properties of Er:LiNbO_3镁对掺铒铌酸锂晶体光谱性质的影响
16.Study on Growth and Photorefractive Properties of Lithium Niobate Doped with Magnesium and IronMg系列铌酸锂晶体光折变性能研究
17.Study on the Doped Effect of Er:LiNbO_3 Crystals In Optical Properties铒掺杂对铌酸锂晶体光学性质的影响
18.Study on the Light-induced Scattering in LiNbO_3 Crystals Double Doped with Fe and Hf铁铪双掺铌酸锂晶体的光致散射研究
相关短句/例句
(Li_(0.06 Na_(0.5)K_(0.04))NbO_3铌酸锂钠钾
3)K0.47Na0.47Li0.06NbO3铌酸钾钠锂
4)potassium lithium niobate crystal铌酸钾锂晶体
1.The infrared transmission spectrum of potassium lithium niobate crystal was studied.研究铌酸钾锂晶体的近红外透过光谱;利用铌酸钾锂晶体对890~960um的Ti:sapphire近红外激光进行倍频,获得蓝绿光输出;研究了晶体的倍频特性,探讨了提高晶体倍频效率的方法。
5)KLN crystal铌酸锂钾晶体
6)Potassium Lithium Tantalate Niobate Crystal钽铌酸钾锂晶体
延伸阅读
乙酰磺胺酸钾分子式:C4H4KNO4S分子量:201.240CAS号:33665-90-6性质: 白色结晶性粉末。熔点250℃,易溶于水,微溶于乙醇。乙酰磺胺酸为针状结晶,熔点123.5℃。制备方法:由异氰酸氟磺酰或异氰酸氯磺酰与各种活性亚甲基化合物(包括α-未取代酮、β-二酮、β-酮酸和β-酮酯等)加工而成。用途:该品具有强烈甜味,甜度约为蔗糖的130倍,呈味性质与糖精相似。高浓度时有苦味。不吸湿,室温下稳定,与糖醇、蔗糖等有很好的混合性。作为非营养型甜味剂,可广泛用于各种食品。按我国GB2760-90规定,可用于液体、固体饮料、冰淇淋、糕点、果酱类、酱菜类、蜜饯、胶姆糖、餐桌用甜味料,最大使用量0.3g/kg。
