Hybridization and field driven phase transitions in hexagonally warped topological insulators

Authors

Anirudha Menon, University of California, Davis
Debashree Chowdhury, Harish Chandra Research Institute
Banasri Basu, Indian Statistical Institute, Kolkata

Article Type

Research Article

Publication Title

SPIN

Abstract

In this paper, we discuss the role of material parameters and external field effects on a thin film topological insulator(TI) in the context of quantum phase transition (QPT). First, we consider an in-plane tilted magnetic field and determine the band structure of the surface states as a function of the tilt angle. We show that the presence of either a hybridization term or hexagonal warping or a combination of both leads to a semi-metal to insulator phase transition which is facilitated by their PT symmetry breaking character. We then note that while the introduction of an electric field does not allow for this QPT since it does not break PT symmetry, it can be used in conjunction with a tunneling element to reach a phase transition effciently. The corresponding critical point is then nontrivially dependent on the electric field, which is pointed out here. Then, we demonstrate that including a hexagonal warping term leads to an immediate PT symmetry violating QPT.

DOI

10.1142/S2010324716400051

Publication Date

1-1-2016

Comments

Open Access; Green Open Access

Recommended Citation

Menon, Anirudha; Chowdhury, Debashree; and Basu, Banasri, "Hybridization and field driven phase transitions in hexagonally warped topological insulators" (2016). Journal Articles. 4245.
https://digitalcommons.isical.ac.in/journal-articles/4245