Abstract
The d-wave superconducting state is studied by using a generalized Hubbard model, in which a next-nearest-neighbor correlated-hopping interaction (Δt 3 ) is included. The results obtained within the BCS framework suggest the existence of a critical hale concentration, below which a d x 2 -y 2-wave superconducting gap is observed. However, above this critical concentration the maxima of the single-particle excitation energy gap are rotated by π/4 and no real nodes exist, as observed in tunneling experiments. In this study, the parameters estimated by first-principle calculations for cuprate superconductors are used.
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