Quantum Criticality in the Ferromagnetic Superconductor UCoGe under Pressure and Magnetic Field

Abstract

The pressure-temperature phase diagram of the orthorhombic ferromagnetic superconductor UCoGe was determined by resistivity measurements up to 10.5~GPa. The Curie temperature TC is suppressed with pressure and vanishes at the critical pressure pc≈1~GPa. Superconductivity is observed in both the ferromagnetic state at low pressure, and in the paramagnetic state above pc up to about 4~GPa. Non-Fermi liquid behavior appears in a large pressure range. The resistivity varies linearly with temperature around pc and evolves continuously with pressure to a T2 Fermi-liquid behavior for p 5~GPa. The residual resistivity as a function of pressure shows a maximum far above pc at p=7.2~GPa and the amplitude of the inelastic scattering term of the resistivity decreases by more than one order in magnitude at p, which appears to mark the entrance into a weakly correlated regime. The pressure dependence of the upper critical field for magnetic field applied along the b and c axis illustrates the drastic difference in the field dependence of the ferromagnetic superconducting pairing. While for H b axis Hc2(T) is driven by the suppression of the ferromagnetic order, it is dominated by the strong initial suppression of the ferromagnetic fluctuations for a field applied in the easy magnetization axis c.