Energy gaps in high-Tc superconductors: BCS after all?

Abstract

A major impediment to solving the problem of high-Tc superconductivity is the ongoing confusion about the magnitude, structure and doping dependence of the superconducting gap, 0, and of the mysterious pseudogap found in underdoped samplesTallonLoram. The pseudogap opens around the (π,0) antinodes below a temperature T* leaving Fermi arcs across the remnant Fermi surfaceKanigel on which the superconducting gap forms at Tc. One thing that seems agreed is that the ratio 20/kBTc well exceeds the BCS value and grows with underdopingMiyakawa1,Miyakawa2, suggesting unconventional, non-BCS superconductivity. Here we re-examine data from many spectroscopies, especially Raman B1g and B2g scatteringSacuto,Guyard, and reconcile them all within a two-gap scenario showing that the points of disagreement are an artefact of spectral-weight loss arising from the pseudogap. Crucially, we find that 0(p), or more generally the order parameter, now scales with the mean-field Tc value, adopting the weak-coupling BCS ratio across the entire phase diagram.