Valence Bond Solids and Their Quantum Melting in Hard-Core Bosons on the Kagome Lattice
arXiv:cond-mat/0602430 · doi:10.1103/PhysRevLett.97.147202
Abstract
Using large scale quantum Monte Carlo simulations and dual vortex theory we analyze the ground state phase diagram of hard-core bosons on the kagome lattice with nearest neighbor repulsion. In contrast to the case of a triangular lattice, no supersolid emerges for strong interactions. While a uniform superfluid prevails at half-filling, two novel solid phases emerge at densities $Ï=1/3$ and $Ï=2/3$. These solids exhibit an only partial ordering of the bosonic density, allowing for local resonances on a subset of hexagons of the kagome lattice. We provide evidence for a weakly first-order phase transition at the quantum melting point between these solid phases and the superfluid.
4 pages, 7 figures