Theoretical prediction of topological insulators in thallium-based III-V-VI2 ternary chalcogenides

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Published 1 June 2010 Europhysics Letters Association
, , Citation Binghai Yan et al 2010 EPL 90 37002 DOI 10.1209/0295-5075/90/37002

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1 Bremen Center for Computational Materials Science, Universität Bremen - Am Fallturm 1, 28359 Bremen, Germany, EU

2 Physikalisches Institut (EP3) and Institute for Theoretical Physics and Astrophysics, University of Würzburg 97074 Würzburg, Germany, EU

3 Beijing National Laboratory for Condensed Matter Physics, and Institute of Physics, Chinese Academy of Sciences Beijing 100190, China

4 Department of Physics, McCullough Building, Stanford University - Stanford, CA 94305-4045, USA

5 Microsoft Research, Station Q, Elings Hall, University of California - Santa Barbara, CA 93106, USA

Dates

  1. Received 15 April 2010
  2. Accepted 26 April 2010
  3. Published
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Abstract

We predict a new class of three-dimensional topological insulators in thallium-based III-V-VI2 ternary chalcogenides, including TlBiQ2 and TlSbQ2 (Q=Te, Se and S). These topological insulators have robust and simple surface states consisting of a single Dirac cone at the Γ point. The mechanism for topological insulating behavior is elucidated using both first-principle calculations and effective field theory models. Remarkably, one topological insulator in this class, TlBiTe2, is also a superconductor when doped with p-type carriers. We discuss the possibility that this material could be a topological superconductor. Another material, TlSbS2, is on the border between topological insulator and trivial insulator phases, in which a topological phase transition can be driven by pressure.

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