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Article overview
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Landau Quantization of Massless Dirac Fermions in Topological Insulator | Peng Cheng
; Canli Song
; Tong Zhang
; Yanyi Zhang
; Yilin Wang
; Jin-Feng Jia
; Jing Wang
; Yayu Wang
; Bang-Fen Zhu
; Xi Chen
; Xucun Ma
; Ke He
; Lili Wang
; Xi Dai
; Zhong Fang
; X.C. Xie
; Xiao-Liang Qi
; Chao-Xing Liu
; Shou-Cheng Zhang
; Qi-Kun Xue
; | Date: |
19 Jan 2010 | Abstract: | The recent theoretical prediction and experimental realization of topological
insulators (TI) has generated intense interest in this new state of quantum
matter. The surface states of a three-dimensional (3D) TI such as Bi_2Te_3,
Bi_2Se_3 and Sb_2Te_3 consist of a single massless Dirac cones. Crossing of the
two surface state branches with opposite spins in the materials is fully
protected by the time reversal (TR) symmetry at the Dirac points, which cannot
be destroyed by any TR invariant perturbation. Recent advances in thin-film
growth have permitted this unique two-dimensional electron system (2DES) to be
probed by scanning tunneling microscopy (STM) and spectroscopy (STS). The
intriguing TR symmetry protected topological states were revealed in STM
experiments where the backscattering induced by non-magnetic impurities was
forbidden. Here we report the Landau quantization of the topological surface
states in Bi_2Se_3 in magnetic field by using STM/STS. The direct observation
of the discrete Landau levels (LLs) strongly supports the 2D nature of the
topological states and gives direct proof of the nondegenerate structure of LLs
in TI. We demonstrate the linear dispersion of the massless Dirac fermions by
the square-root dependence of LLs on magnetic field. The formation of LLs
implies the high mobility of the 2DES, which has been predicted to lead to
topological magneto-electric effect of the TI. | Source: | arXiv, 1001.3220 | Services: | Forum | Review | PDF | Favorites |
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