New types of topological superconductors under local magnetic symmetries

Abstract

We classify gapped topological superconducting (TSC) phases of one-dimensional quantum wires with local magnetic symmetries (LMSs), in which the time-reversal symmetry T is broken but its combinations with certain crystalline symmetry such as Mx T, C2z T, C4zT, and C6zT are preserved. Our results demonstrate that an equivalent BDI class TSC can be realized in the Mx T or C2z T superconducting wire, which is characterized by a chiral Zc invariant. More interestingly, we also find two types of totally new TSC phases in the C4zT, and C6zT superconducing wires, which are beyond the known AZ class, and are characterized by a helical Zh invariant and Zh Zc invariants, respectively. In the Zh TSC phase, Z-pairs of MZMs are protected at each end. In the C6zT case, the MZMs can be either chiral or helical, and even helical-chiral coexisting. The minimal models preserving C4zT or C6zT symmetry are presented to illustrate their novel TSC properties and MZMs.