Kevin A. Madsen, P. Brouwer, P. Recher, P. Silvestrov
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引用次数: 1
摘要
磁性绝缘体与二维拓扑绝缘体的螺旋电子边的相互作用已被证明会导致许多有趣的现象。其中之一是,对于磁各向异性轴的合适方向,与易平面磁铁的交换耦合对通过螺旋边的直流电传输没有影响,尽管它在螺旋边的光谱中打开了一个间隙[Meng {\em et al.}, Phys]。\ Rev.\ B {\bf 90}, 205403(2014)]。在这里,我们从理论上考虑这样一个嵌入在干涉仪中的磁铁,它由一对由两个隧道触点连接的螺旋边缘状态组成,电子可以在两个边缘之间隧穿。使用散射矩阵方法,我们表明,在干涉仪臂中的磁铁的存在会对施加的直流电压产生交流电流。另一方面,在零温度和小直流电压下,直流Aharonov-Bohm效应不存在,只有当外加电压或温度超过磁感应激励间隙时才会出现。
Interference effects induced by a precessing easy-plane magnet coupled to a helical edge state
The interaction of a magnetic insulator with the helical electronic edge of a two-dimensional topological insulator has been shown to lead to many interesting phenomena. One of these is that for a suitable orientation of the magnetic anisotropy axis, the exchange coupling to an easy-plane magnet has no effect on DC electrical transport through a helical edge, despite the fact that it opens a gap in the spectrum of the helical edge [Meng {\em et al.}, Phys.\ Rev.\ B {\bf 90}, 205403 (2014)]. Here, we theoretically consider such a magnet embedded in an interferometer, consisting of a pair of helical edge states connected by two tunneling contacts, at which electrons can tunnel between the two edges. Using a scattering matrix approach, we show that the presence of the magnet in one of the interferometer arms gives rise to AC currents in response to an applied DC voltage. On the other hand, the DC Aharonov-Bohm effect is absent at zero temperature and small DC voltages, and only appears if the applied voltage or the temperature exceeds the magnet-induced excitation gap.
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