Superconductivity and Spin gap in the zigzag chain t-J model simulating a CuO double chain in Pr2Ba4Cu7O15-delta

Abstract

Using the numerical diagonalization method, we examine the one-dimensional t1-t2-J1-J2 model (zigzag chain t-J model) which represents an effective model for metallic CuO double chain in the superconductor Pr2Ba4Cu7O15-δ. Based on the Tomonaga-Luttinger liquid theory, we calculate the Luttinger-liquid parameter K as a function of electron density n. It is found that superconductivity is realized in parameter region corresponding to the experimental result. We show phase diagram of spin gap on the t2/|t1|-n plane by analyzing the expectation value of twist-operator Zσ in the spin sector. The spin gap appears in the region with large t2/|t1|, where the phase boundary at half-filling is consistent with that of the known frustrated quantum spin system. The analysis also suggests that the estimated value of the spin gap reaches 100K in the realistic parameter region of Pr2Ba4Cu7O15-delta.