Growth and properties of tungsten-bronze ferroelectric potassium lithium niobate single crystals for optical applications

Proceedings of 1994 IEEE International Symposium on Applications of Ferroelectrics Pub Date : 1994-08-07 DOI:10.1109/ISAF.1994.522488

M. Adachi, Zhiming Chen, A. Kawabata

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Abstract

K/sub 3/Li/sub 2/Nb/sub 5/O/sub 15/ (KLN) single crystals have been grown by the rf heating Czochralski technique from a melt with the potassium and lithium enriched composition, 35 mole % of K/sub 2/CO/sub 3/, 17.3 mole % of Li/sub 2/O/sub 3/, and 47.7 mole % of Nb/sub 2/O/sub 5/. Optimum growth conditions were a pulling rate of 1 mm/h and rotation rate of 25-30 r.p.m. The pulling axis was chosen in parallel to the [110] axis in order to minimize the cracking during the growth. Transparent and pale-yellow crystals up to 10 mm in diameter and 20 mm in length were obtained. Dielectric constants /spl epsi//sub 11//sup T/ and /spl epsi//sub 33//sup T/ at room temperature were 318 and 106, respectively. The constant /spl epsi//sub 33//sup T/ showed a marked anomaly at the transition point of 430/spl deg/C. Pyroelectric constant p at room temperature was determined as 80 /spl mu/C/m/sup 2/K from the pyroelectric current method. Resistivity /spl rho/ showed a small change at the phase transition temperature. Further, it was found that the addition of small amount of Na to KLN results in more preferable electrooptic and nonlinear-optic behaviors than those of pure KLN.

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用于光学应用的钨青铜铁电铌酸锂钾单晶的生长和性能

采用射频加热法，在K/sub - 3/Li/sub - 2/Nb/sub - 5/O/sub - 15/ (KLN)熔体中富集钾锂元素，K/sub - 2/CO/sub - 3/含量为35mol %， Li/sub - 2/O/sub - 3/含量为17.3 mol %， Nb/sub - 2/O/sub - 5/含量为47.7 mol %。最佳生长条件为拉拔速率为1 mm/h，转速为25 ~ 30转/分。拉拔轴与[110]轴平行，以减少生长过程中的开裂。获得了直径达10毫米、长度达20毫米的透明和淡黄色晶体。室温下的介电常数/spl epsi//sub 11//sup T/和/spl epsi//sub 33//sup T/分别为318和106。常数/spl epsi// sub33 //sup T/在430/spl deg/C的过渡点处表现出明显的异常。用热释电电流法测定室温下的热释电常数p为80 /spl mu/C/m/sup 2/K。电阻率/spl rho/在相变温度下变化不大。此外，还发现添加少量Na的KLN比纯KLN具有更好的电光和非线性光学行为。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of 1994 IEEE International Symposium on Applications of Ferroelectrics

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