Parabolic Scaling in Overdoped Cuprate Films

Abstract

It was recently reported that, in the highly overdoped side of single-crystal La2-xSrxCuO4 films, the transition temperature Tc and zero-temperature superfluid phase stiffness s(0) will obey a parabolic scaling Tc=γ · s(0). Parabolic scaling indicates a quantum phase transition from a superconductor to a normal metal, for which there has been scant understanding [Nature 536, 309-311 (2016)]. The current study shows that, using the quantum critical model for zero-temperature Cooper pairs [EPL 118, 57007 (2017)], parabolic scaling can be exactly derived, where γ=γ(F,a) is uniquely determined by the Fermi energy F and the minimal lattice constant a of superconducting materials. For single-crystal La2-xSrxCuO4 films, we calculate the theoretical value of γ, which yields 4.29 K1/2 and is in accordance with an experimental measure value (4.2 0.5) K1/2 with high accuracy. Our formula for γ can be further tested by investigating other BCS-like materials.