Crossover behavior for complex order parameter in high-Tc superconductors
Abstract
A number of recent experiments have suggested the presence of either real or complex components in the gap symmetry of high-Tc superconductors (HTSC). In this paper we introduce a novel approach to study the competition of such complex order parameter mixtures by varying the position of the two-body attractive potential in a two dimensional extended Hubbard Hamiltonian. We show that this procedure explain a number of experimental results and on the theoretical side, it may be related with certain HTSC microscopic models like the spin fluctuation theory. Following current trends we concentrate on the study of dx2-y2 order parameter with a component of the type dxy or a s-wave like sx2+y2 and sxy symmetry. We show that the position of the optimal s-component peak changes with the position parameter b while the d-component occurs always in the optimally region around hole content ≈ 0.39.
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