Quantum Phase Transition between Z2 spin liquid and columnar Valence Bond Crystals on a Triangular lattice

Abstract

We study the quantum phase transition between the Z2 spin liquid and valence bond solid (VBS) orders on a triangular lattice. With a fully isotropic triangular lattice, the transition from a columnar or resonating-plaquette VBS order can be either first order or there could be two transitions with an intermediate phase. If the transition splits into two, then the Z2 spin liquid will first experience a first order q=3 Potts transition to a new nematic Z2 spin liquid that breaks the 2π/3 lattice rotation symmetry (but retain translation symmetry unlike the VBS states). The second transition will then take this new nematic Z2 spin liquid to a columnar or resonating-plaquette VBS state through a second order 3d XY* transition. On a distorted triangular lattice, the degeneracy between some of the different columnar VBS orders is lifted, and the phase transition can reduce to a single 3d XY* transition.