Electron hydrodynamics of two-dimensional anomalous Hall materials

arXiv: Mesoscale and Nanoscale Physics Pub Date : 2020-11-25 DOI:10.1103/PHYSREVB.103.125106
E. H. Hasdeo, J. Ekström, E. Idrisov, T. Schmidt
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引用次数: 15

Abstract

We study two-dimensional electron systems in the hydrodynamic regime. We show that a geometrical Berry curvature modifies the effective Navier-Stokes equation for viscous electron flow in topological materials. For small electric fields, the Hall current becomes negligible compared to the viscous longitudinal current. In this regime, we highlight an unconventional Poiseuille flow with an asymmetric profile and a deviation of the maximum of the current from the center of the system. In a two-dimensional infinite geometry, the Berry curvature leads to current whirlpools and an asymmetry of potential profile. This phenomenon can be probed by measuring the asymmetric non-local resistance profile.
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二维反常霍尔材料的电子流体力学
我们研究了二维电子系统在流体力学中的作用。我们证明了几何Berry曲率修正了拓扑材料中粘性电子流的有效Navier-Stokes方程。对于小电场,霍尔电流与粘性纵向电流相比变得可以忽略不计。在这种情况下,我们强调了具有不对称轮廓和最大电流偏离系统中心的非常规泊泽维尔流。在二维无限几何中,贝里曲率导致了电流漩涡和势廓的不对称。这种现象可以通过测量非对称非局部电阻曲线来探测。
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arXiv: Mesoscale and Nanoscale Physics
arXiv: Mesoscale and Nanoscale Physics
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