拓扑绝缘体纳米带中的表面态调控。

Manipulating surface states in topological insulator nanoribbons.

机构信息

Department of Electrical Engineering, University of California-Los Angeles, CA 90095, USA.

出版信息

Nat Nanotechnol. 2011 Apr;6(4):216-21. doi: 10.1038/nnano.2011.19. Epub 2011 Feb 13.

DOI:10.1038/nnano.2011.19

Abstract

Topological insulators display unique properties, such as the quantum spin Hall effect, because time-reversal symmetry allows charges and spins to propagate along the edge or surface of the topological insulator without scattering. However, the direct manipulation of these edge/surface states is difficult because they are significantly outnumbered by bulk carriers. Here, we report experimental evidence for the modulation of these surface states by using a gate voltage to control quantum oscillations in Bi(2)Te(3) nanoribbons. Surface conduction can be significantly enhanced by the gate voltage, with the mobility and Fermi velocity reaching values as high as ~5,800 cm(2) V(-1) s(-1) and ~3.7 × 10(5) m s(-1), respectively, with up to ~51% of the total conductance being due to the surface states. We also report the first observation of h/2e periodic oscillations, suggesting the presence of time-reversed paths with the same relative zero phase at the interference point. The high surface conduction and ability to manipulate the surface states demonstrated here could lead to new applications in nanoelectronics and spintronics.

摘要

拓扑绝缘体具有独特的性质，如量子自旋霍尔效应，这是因为时间反演对称性允许电荷和自旋在拓扑绝缘体的边缘或表面上传播而不会散射。然而，由于这些边缘/表面态的数量远远超过体载流子，因此直接操纵这些态是很困难的。在这里，我们报告了通过使用栅极电压来控制 Bi(2)Te(3)纳米带中的量子振荡来调制这些表面态的实验证据。表面传导可以通过栅极电压得到显著增强，迁移率和费米速度分别达到高达~~5800cm2V-1s-1和~~3.7×105m s-1的值，其中高达~51%的总电导率归因于表面态。我们还报告了 h/2e 周期性振荡的首次观察结果，这表明在干涉点处存在具有相同相对零相位的时间反演路径。这里展示的高表面传导和操纵表面态的能力可能会导致在纳米电子学和自旋电子学中的新应用。

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拓扑绝缘体纳米带中的表面态调控。

Manipulating surface states in topological insulator nanoribbons.

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