Anderson Topological Superconductor
Abstract
In this paper we study the phase diagram of a disordered, spin-orbit coupled superconductor with -wave or -wave pairing symmetry in symmetry class . We analyze the topological phase transitions by applying three different methods which include a disorder averaged entanglement entropy, a disorder averaged real-space Chern number, and an evaluation of the momentum space Chern number in a disorder averaged effective model. We find evidence for a disorder-induced topological state. While in the clean limit there is a single phase transition from a trivial phase with a Chern number to a topological phase with , in the disordered system there is an intermediate phase with . The phase transition from the trivial phase into the intermediate phase with is seen in the real-space calculation of the Chern number. In spite of this, this phase transition is not detectable in the entanglement entropy. A second phase transition from the disorder induced into the phase is seen in all three quantities.
Cite
@article{arxiv.1511.03942,
title = {Anderson Topological Superconductor},
author = {Jan Borchmann and Aaron Farrell and T. Pereg-Barnea},
journal= {arXiv preprint arXiv:1511.03942},
year = {2016}
}
Comments
5 pages, 6 figures, v3:adjusted to published version