Probing momentum-dependent scattering in uniaxially stressed Sr2RuO4 through the Hall effect

Abstract

Under in-plane uniaxial stress, the largest Fermi surface sheet of the correlated metal Sr2RuO4 undergoes a Lifshitz transition from an electron-like to an open geometry. We investigate the effects of this transition on transport through measurement of the longitudinal resistivity xx and the Hall coefficient RH. At temperatures where scattering is dominated by electron-electron scattering, RH becomes more negative across the Lifshitz transition, opposite to expectations from the change in Fermi surface topology. We show that this change in RH is explainable only if scattering changes throughout the Brillouin zone, not just at the point in k-space where the Lifshitz transition occurs. In a model of orbital-dependent scattering, the electron-electron scattering rate on sections of Fermi surface with xy orbital weight decreases dramatically. On the other hand, at temperatures where defect scattering dominates xx and RH are essentially constant across the Lifshitz transition.