Linking Dynamic and Thermodynamic Properties of Cuprates; an ARPES study of (CaLa)(BaLa)2Cu3Oy

Abstract

We report angle-resolved photoemission spectroscopy (ARPES) on two families of high temperature superconductors (CaxLa1-x)(Ba1.75-x La % 0.25+x)Cu3Oy with x=0.1 (Tcmax=56 K) and x=0.4 (% Tcmax=82 K). The Fermi surface (FS) is found to be independent of x or y, and its size indicates extreme sample-surface overdoping. This universal FS allowes the comparison of dynamical properties between superconductors of similar structure and identical doping, but different % Tcmax. We find that the high-energy ( E >50% meV) nodal velocity in the x=0.4 family is higher than in the x=0.1 family. The implied correlation between Tcmax and the hopping rate % t supports the notion of kinetic energy driven superconductivity in the cuprates. We also find that the antinodal gap is higher for the x=0.4 family.