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- Title
Manipulating surface states in topological insulator nanoribbons.
- Authors
Faxian Xiu; Liang He; Yong Wang; Lina Cheng; Li-Te Chang; Murong Lang; Guan Huang; Xufeng Kou; Yi Zhou; Xiaowei Jiang; Zhigang Chen; Jin Zou; Shailos, Alexandros; Wang, Kang L.
- 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 Bi2Te3 nanoribbons. Surface conduction can be significantly enhanced by the gate voltage, with the mobility and Fermi velocity reaching values as high as ~5,800 cm2 V−1 s−1 and ~3.7 × 105 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.
- Subjects
QUANTUM Hall effect; TIME reversal; SYMMETRY (Physics); OSCILLATIONS; NANOELECTRONICS; SPINTRONICS
- Publication
Nature Nanotechnology, 2011, Vol 6, Issue 4, p216
- ISSN
1748-3387
- Publication type
Article
- DOI
10.1038/nnano.2011.19