Two-species hard-core bosons on the triangular lattice: A quantum Monte Carlo study

Abstract

Using worm-type quantum Monte Carlo simulations, we investigate bosonic mixtures on the triangular lattice of two species of bosons, which interact via nearest-neighbour intraspecies (V) and onsite interspecies (U) repulsions. For the case of symmetric hopping amplitude (tA/V=tB/V) and U/V=1, we determine a rich ground-state phase diagram that contains double solid, double superfluid (2SF), supersolid (SS), solid-superfluid (Solid-SF) and counterflow supersolid (CSS) states. The SS, Solid-SF and CSS states exhibit spontaneous symmetry breaking among the three sublattices of the triangular lattice and between the two species, which leads to nonzero crystalline density wave order in each species. We furthermore show that the CSS and the SS states are present for tA/V ≠ tB/V, and the latter even survives up to tA/V → ∞ or tB/V → ∞ limit. The effects induced by the variation of U/V and by the imbalance of particle numbers of the two species are also explored.