二维铁磁体中的量子化反常霍尔效应：金属中的量子霍尔效应。

Quantized anomalous Hall effect in two-dimensional ferromagnets: quantum Hall effect in metals.

作者信息

Onoda Masaru, Nagaosa Naoto

机构信息

Correlated Electron Research Center (CERC), National Institute of Advanced Industrial Science and Technology (AIST), Tsukuba Central 4, Tsukuba 305-8562, Japan.

出版信息

Phys Rev Lett. 2003 May 23;90(20):206601. doi: 10.1103/PhysRevLett.90.206601. Epub 2003 May 22.

DOI:10.1103/PhysRevLett.90.206601

PMID:12785910

Abstract

We study the effect of disorder on the anomalous Hall effect (AHE) in two-dimensional ferromagnets. The topological nature of the AHE leads to the integer quantum Hall effect from a metal, i.e., the quantization of sigma(xy) induced by the localization except for the few extended states carrying Chern numbers. Extensive numerical study on a model reveals that Pruisken's two-parameter scaling theory holds even when the system has no gap with the overlapping multibands and without the uniform magnetic field. Therefore, the condition for the quantized AHE is given only by the Hall conductivity sigma(xy) without the quantum correction, i.e., /sigma(xy)/>e(2)/(2h).

摘要

我们研究了无序对二维铁磁体中反常霍尔效应（AHE）的影响。反常霍尔效应的拓扑性质导致了金属中的整数量子霍尔效应，即由局域化引起的σ(xy)的量子化，除了少数携带陈数的扩展态。对一个模型的广泛数值研究表明，即使系统在多能带重叠且没有均匀磁场的情况下没有能隙，普里斯肯的双参数标度理论仍然成立。因此，量子化反常霍尔效应的条件仅由霍尔电导率σ(xy)给出，而无需量子修正，即|σ(xy)|>e²/(2h)。

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二维铁磁体中的量子化反常霍尔效应：金属中的量子霍尔效应。

Quantized anomalous Hall effect in two-dimensional ferromagnets: quantum Hall effect in metals.

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