受挫铁磁体中的自旋手性、贝里相位和反常霍尔效应。

Spin chirality, Berry phase, and anomalous Hall effect in a frustrated ferromagnet.

作者信息

Taguchi Y, Oohara Y, Yoshizawa H, Nagaosa N, Tokura Y

机构信息

Department of Applied Physics, University of Tokyo, Tokyo 113-8656, Japan.

出版信息

Science. 2001 Mar 30;291(5513):2573-6. doi: 10.1126/science.1058161.

DOI:10.1126/science.1058161

PMID:11283363

Abstract

An electron hopping on non-coplanar spin sites with spin chirality obtains a complex phase factor (Berry phase) in its quantum mechanical amplitude that acts as an internal magnetic field, and is predicted to manifest itself in the Hall effect when it is not cancelled. The present combined work of transport measurement, neutron scattering, and theoretical calculation provides evidence that the gigantic anomalous Hall effect observed in Nd2Mo2O7, a pyrochlore ferromagnet with geometrically frustrated lattice structure, is mostly due to the spin chirality and the associated Berry phase originating from the Mo spin tilting.

摘要

电子在具有自旋手性的非共面自旋位点上跳跃时，其量子力学振幅中会获得一个作为内磁场的复相位因子（贝里相位），并且预计当该相位因子未被抵消时，会在霍尔效应中表现出来。目前结合输运测量、中子散射和理论计算的工作提供了证据，表明在具有几何阻挫晶格结构的烧绿石铁磁体Nd2Mo2O7中观察到的巨大反常霍尔效应主要归因于自旋手性以及源自Mo自旋倾斜的相关贝里相位。

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受挫铁磁体中的自旋手性、贝里相位和反常霍尔效应。

Spin chirality, Berry phase, and anomalous Hall effect in a frustrated ferromagnet.

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