Quantum Hall Effect in Quasi-One-Dimensional Weak Topological Insulator
ORAL
Abstract
Prototypical weak topological insulators (WTI) have been theoretically predicted to be realized in quasi-one-dimensional materials Bi4X4 (X = Br, I) [PRL 116, 066801 (2016)] and then experimentally confirmed in ARPES [Nature (London) 566, 518 (2019)]. The unique surface states of such a WTI have two entangled Dirac cones with strong anisotropy. We study theoretically the integer quantum Hall effect of such WTI surface states and show the important roles played by the special geometry, symmetry, topology, and their interplay in Bi4X4. We also predict prominent signatures in transport experiments.
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Presenters
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Tianyi Xu
University of Texas at Dallas
Authors
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Tianyi Xu
University of Texas at Dallas
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Patrick Cheung
University of Texas at Dallas
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Fengcheng Wu
University of Maryland, University of Maryland, College Park
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Fan Zhang
University of Texas at Dallas, University of Texas, Dallas, Department of Physics, The University of Texas at Dallas, Department of Physics, University of Texas at Dallas, The University of Texas at Dallas, The Univerisity of Texas at Dallas