Phase diagrams of electronic state on One Dimensional d-p Model
Abstract
We investigate the one-dimensional(1D) d-p model, simulating a Cu-O linear chain with strong Coulomb repulsion, by using the numerical diagonalization method. Using the Luttinger liquid theory, we obtained phase diagrams of the ground state on Ud-Upd plane, where Ud and Upd represent on-site interaction at d-sites and the nearest-neighbor interaction between p- and d-sites respectively. In the weak coupling region, they agree with the g-ology; a superconducting phase (SC(I)) is restricted to attractive interaction Upd<0. On the other hand, in the strong coupling region, we found a novel superconducting phase(SC(II)) for repulsive interaction Upd>|Ud| and a insulating state with a charge gap for Ud>Udc and Upd>Updc with critical values Udc and Updc at half-filling. Away from half-filling, another superconducting phase (SC(III)) appears for Ud>>Upd>0; which has been found for Ud ∞ in the previous paper [Physica C205 (1993) 170]. An analysis of the spin gap suggests that the SC(I) and SC(II) include the Luther-Emery region (with spin-gap) in part, while the SC(III) belongs to Tomonaga-Luttinger region (without spin-gap) in whole.
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