A framework for the description of charge order, pseudo and superconducting gap, critical temperature and pairing interaction in cuprate superconductors

Abstract

A unified phenomenological description framework is proposed for the evaluation of some of the most important observables of the cuprate superconductors: the pseudogap (PG) PG, the local superconducting amplitudes SC(ri), the critical temperature T c and charge ordering (CO) parameters. Recently detailed measurements of CO structures and CO wavelengths λ CO are faithfully reproduced by solutions of a Cahn-Hilliard differential equation with a free energy potential V GL that produces alternating small charge modulations. The charge oscillations induce atomic fluctuations that mediate the SC pair interaction proportional to the V GL amplitude. The local SC amplitude and phase θi are connected by Josephson coupling E J(r ij) and the SC long-range order transition occurs when < E J > k BT c. The calculated results of the wavelength λ CO, PG, < SC > and T c calculations are in good agreement with a variety of experiments.