The formation of self-organized regular array microstructure derived from structural anisotropy of phase M solid-solution

Yo Yamamoto; Tohru Sekino; Takafumi Kusunose; Tadachika Nakayama; Yukihiro Morimoto; Shintaro Miyazawa; Koichi Niihara

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The formation of self-organized regular array microstructure derived from structural anisotropy of phase M solid-solution

机译：M相固溶体结构各向异性导致自组织规则阵列微观结构的形成

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摘要

Two crystal growth methods, Czochralski and floating zone, were applied for verifying the phase M solid-solution having superstructure along the c-axis of LiNbO_3. In the crystals obtained by two different crystal growth methods, the common features of microstmcture were observed such as the combination of the superstructure along the c-axis of LiNbO_3 sub-cell and the self-organized regular array of the Li_2TiO_3 rod-precipitates perpendicular to the layer of the superstructure. Since a certain relationship of crystallographic orientation between the LiNbO_3 and Li_2TiO_3 phase is retained, it was assumed that the formation of the micron order rod precipitates were derived from the interfacial energetic anisotropy of the superstructure of phase M.

机译：应用了两种晶体生长方法：直拉法和浮区法，以验证沿LiNbO_3的c轴具有超结构的M相固溶体。在通过两种不同的晶体生长方法获得的晶体中，观察到微观结构的共同特征，例如沿LiNbO_3子电池的c轴的上层结构和垂直于晶体棒的Li_2TiO_3棒沉淀的自组织规则阵列的组合上层建筑的层。由于保留了LiNbO_3和Li_2TiO_3相之间的晶体取向关系，因此可以认为微米级棒状析出物的形成是由M相上层结构的界面能各向异性引起的。

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来源
《Journal of Crystal Growth》 |2004年第3期|p.445-451|共7页
作者
Yo Yamamoto; Tohru Sekino; Takafumi Kusunose; Tadachika Nakayama; Yukihiro Morimoto; Shintaro Miyazawa; Koichi Niihara;
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作者单位

The Institute of Scientific and Industrial Research Niihara Lab., Osaka University, 8-1 Mihogaoka, Ibaraki, Osaka 567-0047, Japan;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
原文格式 PDF
正文语种 eng
中图分类晶体学;
关键词
A1. crystal morphology; A1. crystal structure; A2. czochralski method; A2. floating zone technique; B1. lithium niobate;

机译：A1。晶体形态;A1。晶体结构;A2。 czochralski方法;A2。浮动区技术;B1。铌酸锂;

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The formation of self-organized regular array microstructure derived from structural anisotropy of phase M solid-solution

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