在由 5d 过渡金属原子吸附剂修饰的石墨烯中实现电可调量子反常霍尔效应。

Electrically tunable quantum anomalous Hall effect in graphene decorated by 5d transition-metal adatoms.

机构信息

Peter Grünberg Institut and Institute for Advanced Simulation, Forschungszentrum Jülich and JARA, D-52425 Jülich, Germany.

出版信息

Phys Rev Lett. 2012 Feb 3;108(5):056802. doi: 10.1103/PhysRevLett.108.056802. Epub 2012 Feb 1.

DOI:10.1103/PhysRevLett.108.056802

PMID:22400951

Abstract

Based on first-principles calculations, we predict that 5d transition metals on graphene present a unique class of hybrid systems exhibiting topological transport effects that can be manipulated effectively by external electric fields. The origin of this phenomenon lies in the exceptional magnetic properties and the large spin-orbit interaction of the 5d metals leading to significant magnetic moments accompanied with colossal magnetocrystalline anisotropy energies. A strong magnetoelectric response is predicted that offers the possibility to switch the spontaneous magnetization direction by moderate electric fields, enabling an electrically tunable quantum anomalous Hall effect.

摘要

基于第一性原理计算，我们预测在石墨烯上的 5d 过渡金属呈现出一类独特的杂化体系，具有拓扑输运效应，可通过外部电场有效地进行调控。这种现象的起源在于 5d 金属的特殊磁性和大的自旋轨道相互作用，导致了显著的磁矩和巨大的磁晶各向异性能量。我们还预测了强烈的磁电响应，这提供了通过适度的电场来切换自发磁化方向的可能性，从而实现了电可调量子反常霍尔效应。

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在由 5d 过渡金属原子吸附剂修饰的石墨烯中实现电可调量子反常霍尔效应。

Electrically tunable quantum anomalous Hall effect in graphene decorated by 5d transition-metal adatoms.

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