非反转对称系统的电流诱导轨道磁化

Daisuke Hara, M. Bahramy, S. Murakami
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引用次数: 6

摘要

在具有时间反转对称性的系统中,轨道的平衡磁化强度为零。最近,有人提出,电流可以在螺旋晶体结构中以与经典螺线管相同的方式诱导轨道磁化。在本文中,我们扩展了这一理论,并在更广泛的无反转对称性系统中研究了电流诱导轨道磁化。首先,我们考虑没有反转对称性的极性金属。我们发现,即使没有自旋轨道耦合,电流诱导的轨道磁化也呈现在与电流垂直的方向上。利用微扰方法,从物理上阐明了电流诱导轨道磁化在极性金属中的表现。作为一个例子,我们计算了SnP中电流诱导的轨道磁化强度,发现它可能足够大,可以进行测量。接下来,我们考虑一个没有逆对称的二维系统。建立了一种在厚度方向上用实空间坐标计算平面内电流感应轨道磁化强度的方法。将这一理论应用于绝缘体的表面和界面,我们发现沿表面和界面的电流会引起垂直于电流的轨道磁化。
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Current-induced orbital magnetization in systems without inversion symmetry
In systems with time-reversal symmetry, the orbital magnetization is zero in equilibrium. Recently, it has been proposed that the orbital magnetization can be induced by an electric current in a helical crystal structure in the same manner as that in a classical solenoid. In this paper, we extend this theory and study the current-induced orbital magnetization in a broader class of systems without inversion symmetry. First, we consider polar metals which have no inversion symmetry. We find that the current-induced orbital magnetization appears in a direction perpendicular to the electric current even without spin-orbit coupling. Using the perturbation method, we physically clarify how the current-induced orbital magnetization appears in polar metals. As an example, we calculate the current-induced orbital magnetization in SnP, and find that it might be sufficiently large for measurement. Next, we consider a two-dimensional system without inversion symmetry. We establish a method to calculate the current-induced orbital magnetization in the in-plane direction by using real-space coordinates in the thickness direction. By applying this theory to surfaces and interfaces of insulators, we find that an electric current along surfaces and interfaces induces an orbital magnetization perpendicular to the electric current.
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