Normal state specific heat in the cuprates La2-xSrxCuO4 and Bi2+ySr2-x-yLaxCuO6+δ near the critical point of the pseudogap phase

Abstract

The specific heat C of the cuprate superconductors La2-xSrxCuO4 and Bi2+ySr2-x-yLaxCuO6+δ was measured at low temperature (down to 0.5~ K), for dopings p close to p, the critical doping for the onset of the pseudogap phase. A magnetic field up to 35~ T was applied to suppress superconductivity, giving direct access to the normal state at low temperature, and enabling a determination of Ce, the electronic contribution to the normal-state specific heat, at T 0. In La2-xSrxCuO4 at x=p = 0.22, 0.24 and 0.25, Ce / T = 15-16~ mJmol-1 K-2 at T = 2~ K, values that are twice as large as those measured at higher doping (p > 0.3) and lower doping (p < 0.15). This confirms the presence of a broad peak in the doping dependence of Ce at p 0.19, as previously reported for samples in which superconductivity was destroyed by Zn impurities. Moreover, at those three dopings, we find a logarithmic growth as T 0, such that Ce / T B(T0/T). The peak vs p and the logarithmic dependence vs T are the two typical thermodynamic signatures of quantum criticality. In the very different cuprate Bi2+ySr2-x-yLaxCuO6+δ, we again find that Ce / T B(T0/T) at p p, strong evidence that this (1/T) dependence - first discovered in the cuprates La1.8-xEu0.2SrxCuO4 and La1.6-xNd0.4SrxCuO4 - is a universal property of the pseudogap critical point. All four materials display similar values of the B coefficient, indicating that they all belong to the same universality class.

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