Superconductivity due to spin fluctuations originating from multiple Fermi surfaces in a double chain superconductor Pr2Ba4Cu7O15-δ
Abstract
The mechanism of superconductivity in Pr2Ba4Cu7O15-δ is studied using a quasi-one dimensional double chain model with appopriate hopping integrals, on-site U, and off-site repulsion V1. Applying the fluctuation exchange method to this model and solving the Eliashberg equation, we obtain the doping dependence of superconductivity that is consistent with the experiments. The superconducting gap has an extended s-wave-like form, which gives a temperature dependence of the spin lattice relaxation rate that does not contradict with the experimental results.
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