A new pathway towards all-electric spintronics:electric-field control of spin states through surface/interface effects 被引量：1

A new pathway towards all-electric spintronics:electric-field control of spin states through surface/interface effects

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摘要 Manipulation of spin states via purely electric means forms the research branch "all-electric spintronics".In this paper,we briefly review recent progress relating to the all-electric spintronics,including electric-field control of Rashba spin-orbit coupling,magnetic anisotropy,exchange bias,ferromagnetism,and other forms of magnetoelectric coupling.Special focus is given to surface/interface systems,including semiconductor(oxide) heterostructures,magnetic/nonmagnetic surfaces,semiconductor-metal interfaces,and other nanostructures,which can be good candidates for functional materials for spintronic. Manipulation of spin states via purely electric means forms the research branch ＂all-electric spintronics＂. In this paper, we briefly review recent progress relating to the all-electric spintronics, including electric-field control of Rashba spin-orbit cou- pling, magnetic anisotropy, exchange bias, ferromagnetism, and other forms of magnetoelectric coupling. Special focus is giv- en to surface/interface systems, including semiconductor （oxide） heterostructures, magnetic/nonmagnetic surfaces, semicon- ductor-metal interfaces, and other nanostructures, which can be good candidates for functional materials for spintronic.

作者 GONG ShiJing DING HangChen ZHU WanJiao DUAN ChunGang ZHU ZiQiang CHU JunHao

机构地区 Key Laboratory of Polar Materials and Devices National Laboratory for Infrared Physics

出处《Science China(Physics,Mechanics & Astronomy)》 SCIE EI CAS 2013年第1期232-244,共13页 中国科学：物理学、力学、天文学（英文版）

基金 supported by the National Basic Research Program of China(Grant No.2013CB922300) the National Natural Science Foundation of China(Grant Nos.11004211,61125403 and 50832003) PCSIRT, NCET,ECNU Fostering Project for Top Doctoral Dissertations Fundamental Research Funds for the central universities(ECNU)

关键词 RASHBA magnetoelectric effect MULTIFERROIC surface interface 自旋电子学电场控制表面磁性自旋态界面效应电动半导体异质结自旋轨道耦合

分类号 O462 [理学—电子物理学]

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