Topological phase transitions with and without energy gap closing

Abstract

Topological phase transitions in a three-dimensional (3D) topological insulator (TI) with an exchange field of strength g are studied by calculating spin Chern numbers C(kz) with momentum kz as a parameter. When |g| exceeds a critical value gc, a transition of the 3D TI into a Weyl semimetal occurs, where two Weyl points appear as critical points separating kz regions with different first Chern numbers. For |g|<gc, C(kz) undergo a transition from 1 to 0 with increasing |kz| to a critical value kz C. Correspondingly, surface states exist for |kz| < kz C, and vanish for |kz| kz C. The transition at |kz| = kz C is acompanied by closing of spin spectrum gap rather than energy gap.