Symmetry-protected topological phase in a one-dimensional correlated bosonic model with a synthetic spin-orbit coupling
arXiv:1510.04554 · doi:10.1103/PhysRevLett.115.195302
Abstract
By performing large-scale density-matrix renormalization group simulations, we investigate a one-dimensional correlated bosonic lattice model with a synthetic spin-orbit coupling realized in recent experiments. In the insulating regime, this model exhibits a symmetry-protected topological phase. This symmetry-protected topological phase is stabilized by time-reversal symmetry and it is identified as a Haldane phase. We confirm our conclusions further by analyzing the entanglement spectrum. In addition, we find four conventional phases: a Mott insulating phase with no long range order, a ferromagnetic superfluid phase, a ferromagnetic insulating phase and a density-wave phase.
Submitted on April 12, 2015, accepted by PRL