Interplay among critical temperature, hole content, and pressure in the cuprate superconductors
Abstract
Within a BCS-type mean-field approach to the extended Hubbard model, a nontrivial dependence of Tc on the hole content per unit CuO2 is recovered, in good agreement with the celebrated non-monotonic universal behaviour at normal pressure. Evaluation of Tc at higher pressures is then made possible by the introduction of an explicit dependence of the tight-binding band and of the carrier concentration on pressure P. Comparison with the known experimental data for underdoped Bi2212 allows to single out an `intrinsic' contribution to d Tc / d P from that due to the carrier concentration, and provides a remarkable estimate of the dependence of the inter-site coupling strength on the lattice scale.
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