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Topological protection, disorder, and interactions: Survival at the surface of three-dimensional topological superconductors

Matthew S. Foster, Hong-Yi Xie, and Yang-Zhi Chou
Phys. Rev. B 89, 155140 – Published 30 April 2014

Abstract

We consider the interplay of disorder and interactions upon the gapless surface states of 3D topological superconductors. The combination of topology and superconducting order inverts the action of time-reversal symmetry, so that extrinsic time-reversal invariant surface perturbations appear only as “pseudomagnetic” fields (Abelian and non-Abelian vector potentials, which couple to spin and valley currents). The main effect of disorder is to induce multifractal scaling in surface state wave functions. These critically delocalized, yet strongly inhomogeneous states renormalize interaction matrix elements relative to the clean system. We compute the enhancement or suppression of interaction scaling dimensions due to the disorder exactly, using conformal field theory. We determine the conditions under which interactions remain irrelevant in the presence of disorder for symmetry classes AIII and DIII. In the limit of large topological winding numbers (many surface valleys), we show that the effective field theory takes the form of a Finkel'stein nonlinear sigma model, augmented by the Wess-Zumino-Novikov-Witten term. The sigma model incorporates interaction effects to all orders and provides a framework for a controlled perturbative expansion; the inverse spin or thermal conductance is the small parameter. For class DIII, we show that interactions are always irrelevant, while in class AIII, there is a finite window of stability, controlled by the disorder. Outside of this window, we identify new interaction-stabilized fixed points.

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  • Received 31 March 2014
  • Revised 13 April 2014

DOI:https://doi.org/10.1103/PhysRevB.89.155140

©2014 American Physical Society

Authors & Affiliations

Matthew S. Foster*, Hong-Yi Xie, and Yang-Zhi Chou

  • Department of Physics and Astronomy, Rice University, Houston, Texas 77005, USA

  • *matthew.foster@rice.edu

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Issue

Vol. 89, Iss. 15 — 15 April 2014

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