氧化物界面的涌现现象。

Emergent phenomena at oxide interfaces.

机构信息

Correlated Electron Research Group, RIKEN-Advanced Science Institute, Saitama 351-0198, Japan.

出版信息

Nat Mater. 2012 Jan 24;11(2):103-13. doi: 10.1038/nmat3223.

Abstract

Recent technical advances in the atomic-scale synthesis of oxide heterostructures have provided a fertile new ground for creating novel states at their interfaces. Different symmetry constraints can be used to design structures exhibiting phenomena not found in the bulk constituents. A characteristic feature is the reconstruction of the charge, spin and orbital states at interfaces on the nanometre scale. Examples such as interface superconductivity, magneto-electric coupling, and the quantum Hall effect in oxide heterostructures are representative of the scientific and technological opportunities in this rapidly emerging field.

摘要

氧化物异质结构的原子尺度合成技术的最新进展为在界面处创造新型状态提供了肥沃的新基础。可以使用不同的对称约束来设计表现出在体相成分中未发现的现象的结构。一个特征是在纳米尺度上的界面处重建电荷、自旋和轨道状态。氧化物异质结构中的界面超导性、磁电耦合和量子霍尔效应等例子是这个快速发展领域中的科学和技术机会的代表。

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氧化物界面的涌现现象。

Emergent phenomena at oxide interfaces.

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