Mixed-order transition and tricritical point associated with checkerboard supersolidity in the two-dimensional t2-V1 model

Abstract

We use Quantum Monte Carlo method employing stochastic-series-expansion technique to study the ground state properties of the t2-V1 model on a square lattice. We find that, away from half-fillings, the minimal combination of nearest-neighbor repulsion V1 and next-nearest-neighbor hopping t2 may give rise to checkerboard supersolidity. The nature of the quantum phase transition, where the superfluid changes to a checkerboard supersolid, depends on the relative strength of V1/t2 and the average site occupancy. Interestingly, the model exhibits a mixed-order transition near half filling; at a higher (lower) filling, tricriticality is witnessed followed by a second-order transition at densities even further away from half filling. Close to half filling, the model displays the extreme Thouless effect and transits from a superfluid to a checkerboard solid.