d-wave Superconductivity in the Hubbard model on the isotropic triangular lattice and a possibility of the chiral d+id pairing as a quasi-stable state

Abstract

We study d-wave superconductivity(SC) in the Hubbard model on the isotropic triangular lattice described by the hopping parameter t and on-site Coulomb repulsion U at zero temperature and half-filling using the variational cluster approximation. We found that the dxy SC is the ground state below the Mott insulator phase U/t 6, and the energy of chiral d+id SC is slightly higher than the dxy SC. The energy difference between the normal and dxy states is about 0.02t 0.06t for U/t 5. This result is semi-quantitatively consistent with the SC transition temperature TK=3.9 K of -(BEDT-TTF)2Cu2(CN)3, where t is estimated to be about 0.06 eV, and the predicted pairing symmetry dxy agrees with the STM observations. The energy difference between the d+id and dxy is about 0.01t 0.03t for U/t 5 so the transition from d+id to dxy, or some effects of d+id in dxy phase may be observed in experiments for -(BEDT-TTF)2Cu2(CN)3.