Evidence of spin liquid with hard-core bosons in a square lattice

Abstract

We show that laser assisted hopping of hard core bosons in a square optical lattice can be described by an antiferromagnetic J1-J2 XY model with tunable ratio of J2/J1. We numerically investigate the phase diagram of the J1-J2 XY model using both the tensor network algorithm for infinite systems and the exact diagonalization for small clusters and find strong evidence that in the intermediate region around % J2/J1 0.5, there is a spin liquid phase with vanishing magnetization and valence bond orders, which interconnects the Neel state on the J2 J1 side and the stripe antiferromagnetic phase on the % J2 J1 side. This finding opens up the possibility of studying the exotic spin liquid phase in a realistic experimental system using ultracold atoms in an optical lattice.