Exactly Solvable Model for Two Dimensional Topological Superconductor

Abstract

In this paper, we present an exactly solvable model for two dimensional topological superconductor with helical Majorana edge modes protected by time reversal symmetry. Our construction is based on the idea of decorated domain walls and makes use of the Kasteleyn orientation on a two dimensional lattice, which was used for the construction of the symmetry protected fermion phase with Z2 symmetry in Ref. Tarantino2016,Ware2016. By decorating the time reversal domain walls with spinful Majorana chains, we are able to construct a commuting projector Hamiltonian with zero correlation length ground state wave function that realizes a strongly interacting version of the two dimensional topological superconductor. From our construction, it can be seen that the T2=-1 transformation rule for the fermions is crucial for the existence of such a nontrivial phase; with T2=1, our construction does not work.