Topological pump and its plateau transitions of N-leg spin ladder

Abstract

A topological pump on an N-leg spin ladder is discussed by introducing spatial clusterization whose adiabatic limit is a set of 2N-site staircase clusters. We set a pump path in the parameter space that connects two different symmetry protected topological phases. By introducing a symmetry breaking staggered magnetic field, the system is always gapped during the pump. In the topological pump thus obtained, the bulk Chern number is given by the number of the critical points enclosed by the pump path. Plateau transitions characterized by the Chern number are demonstrated associated with deformation of the pump path. We find that there are N critical points enclosed by the pump path for the N-leg ladder. The ground state phase diagram without symmetry breaking terms is numerically investigated by using the quantized Berry phase. We also discuss the physical picture of edge states in the diagonal boundary, and numerically demonstrate the bulk-edge correspondence for N=2,3 cases.