Boosted magnetic fluctuations at the onset of superconductivity in UTe2 beyond 40 T

Abstract

Several unconventional superconducting phases have been discovered close to a metamagnetic transition in the heavy-fermion compound UTe2. Although suspected to be of magnetic nature, the mechanisms stabilizing these superconducting phases remain mysterious. Here, we present electrical-resistivity measurements on UTe2, with a current Ia and under pulsed magnetic fields up to 60~T rotating in the (b,c) plane. We find that the maximum of the Fermi-liquid coefficient A at the metamagnetic transition is enhanced under magnetic fields tilted by 30-40~ from b to c. The enhancement of A coincides with the stabilization of superconductivity in the polarized paramagnetic regime beyond the metamagnetic field μ0Hm40~T. It is the signature of a boosted quantum-critical magnetic-fluctuation mode probably in play for the mechanism of this superconducting phase. This result appeals for descriptions of the interplay between magnetic-field-induced superconductivity and quantum critical magnetic properties.