Signatures of quantum criticality in hole-doped and chemically pressurized EuFe2As2 single crystals

Abstract

We study the effect of hole-doping and chemical pressure (isovalent doping) in single crystals of KxEu1-xFe2As2 and EuFe2(As1-yPy)2, respectively, by measurements of the thermopower, S(T), and electrical resistivity, (T). The evolution of S(T) upon doping indicates drastic changes of the electronic configuration at critical values xcr=0.3 and ycr=0.21, respectively, as the spin-density-wave transition is completely suppressed and superconductivity (SC) emerges. For the case of chemical pressure, the comparison with published ARPES measurements indicates a Lifshitz transition at ycr. The temperature dependences S(T)/T T and T observed in the normal state above the SC transition suggest quantum criticality in both systems.