Thermodynamic signatures of quantum criticality in cuprates

Abstract

The three central phenomena of cuprate superconductors are linked by a common doping p, where the enigmatic pseudogap phase ends, around which the superconducting phase forms a dome, and at which the resistivity exhibits an anomalous linear dependence on temperature as T 0. However, the fundamental nature of p remains unclear, in particular whether it marks a true quantum phase transition. We have measured the specific heat C of the cuprates Eu-LSCO and Nd-LSCO at low temperature in magnetic fields large enough to suppress superconductivity, over a wide doping range across p. As a function of doping, we find that the electronic term C el is strongly peaked at p, where it exhibits a -TlogT dependence as T 0. These are the classic signatures of a quantum critical point, as observed in heavy-fermion and iron-based superconductors where their antiferromagnetic phase ends. We conclude that the pseudogap phase of cuprates ends at a quantum critical point, whose associated fluctuations are most likely involved in the d-wave pairing and the anomalous scattering.