Quantum Phase Transitions in the Hubbard Model on Triangular Lattice

Abstract

We investigate the quantum phase transitions in the half-filled Hubbard model on the triangular lattice by means of the path-integral renormalization group (PIRG) method with a new iteration scheme proposed recently. It is found that as the Hubbard interaction U increases, the paramagnetic metallic state undergoes a first-order phase transition to a nonmagnetic insulating (NMI) state at Uc1 7.7t, which is followed by another first-order transition to a 120 N\'eel ordered state at Uc2 10t, where t is the transfer integral. Our results ensure the existence of the intermediate NMI phase, and resolve some controversial arguments on the nature of the previously proposed quantum phase transitions. We find that -(BEDT-TTF)2Cu2(CN)3 is located in the NMI phase close to the metal-insulator transition point.