Microscopic mechanism of stripe pairing phase formation

机译：条纹配对相形成的显微镜机制

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Stripe phase formation in manganite compounds with the colossal magnetoresistance is discussed on the basis of the cooperative Jahn-Teller effect theory. It is shown that the stripes are the result of a peculiar structural phase transition. The microscopic mechanism of this structural ordering is considered and it is found that the interference of two symmetry types of distortion ordering takes place, that of totally symmetrical and Jahn-Teller distortions. The quadratic electron-phonon interaction after two-mode canonical transformation leads to a three center interaction responsible for the stability of a combination local distortions around the nearest neighbor Mn{sup}(3+)-Mn{sup}(4+)-Mn{sup}(3+) ions as a structural unit of a stripe. The described combination of the local distortions is in agreement with the experimentally observed electron diffraction pattern.

机译：基于合作JAHN沥条效应理论，讨论了具有巨磁阻的锰化合物中的条纹相形成。结果表明条纹是特殊结构相转变的结果。考虑该结构排序的微观机理，并发现发生了两个对称类型的失真顺序的干扰，完全对称和jahn-externer扭曲。双模式规范变换后的二次电子 - 声子相互作用导致三个中心交互，负责最近邻居Mn {sup}（3 +） - mn {sup}（4 +） - mn周围的组合局部失真的稳定性{sup}（3+）离子作为条纹的结构单元。所描述的局部失真组合与实验观察到的电子衍射图案一致。

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《NATO Advanced Research Workshop on Colossal Magnetoresistance and Vibronic Interactions, and the Fifteenth International Symposium on the Jahn-Teller Effect》|2001年||共8页
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Michael D. Kaplan; George O. Zimmerman;
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中图分类 O-53;
关键词
Stripes; Manganites;

机译：条纹;锰矿;

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Microscopic mechanism of stripe pairing phase formation

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