Theoretical Prediction of Topological Insulators in Thallium-based III-V-VI2 Ternary Chalcogenides

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 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.