Metamagnetism in the high-pressure tetragonal phase of UTe2

Abstract

A structural orthorhombic-to-tetragonal phase transition was recently discovered in the heavy-fermion compound UTe2 at a pressure p*3-8~GPa [Honda et al., J. Phys. Soc. Jpn. 92, 044702 (2023); Huston et al., Phys. Rev. Mat. 6, 114801 (2022)]. In the high-pressure tetragonal phase, a phase transition at Tx=235~K and a superconducting transition at Tsc=2~K have been revealed. In this work, we present an electrical-resistivity study of UTe2 in pulsed magnetic fields up to μ0H=58~T combined with pressures up to p = 6 GPa. The field was applied in a direction tilted by 30~~from b to c in the orthogonal structure, which is identified as the direction c of the tetragonal structure. In the tetragonal phase, the presence of superconductivity is confirmed and signatures of metamagnetic transitions are observed at the fields μ0Hx1=24~T and μ0Hx2=34~T and temperatures smaller than Tx. We discuss the effects of uniaxial pressure and we propose that a magnetic ordering drives the transition at Tx.