High-Magnetic Field Phases in U1-xThxTe2

Abstract

At temperatures much lower than its superconducting critical temperature Tc of 2.1 K, the heavy fermion superconductor UTe2 has a remarkable phase diagram of magnetic field H vs. angles φ and θ at which H is tilted away from the b-axis toward the a- and c-axes, respectively, in the orthorhombic unit cell. The phase diagram appears to contain three superconducting phases: (1) a low field superconducting phase SCLF extending over all values of φ and θ with an upper critical field Hc2 with a maximum value of 15 T at φ = θ = 0; (2) a high field superconducting phase SCHF located in a region between φ ≈ 7 and θ ≈ 4 in fields from Hc2LF of the SCLF phase and the metamagnetic transition at Hm at 35 T marking the onset of the magnetic field polarized FP phase: and (3) a SCFP superconducting phase that resides entirely within the FP phase in a pocket of superconductivity extending from θ ≈ 20 to 40 in fields from 40 T to above 60 T. In this work, we studied the H vs θ phase diagram at a base temperature of 0.6 K as a function of Th concentration x in U1-xThxTe2 pseudobinary compounds for 0.5\% x 4.7\%. We find that for all values of x within this range, the SCLF phase is retained with a reduced value of Hc2 of 10 T at φ = θ = 0 for x = 4.7\%, while the SCHF phase is suppressed. The SCFP and FP phases are unaffected to values of x = 2\% but are completely suppressed in the region x = 2.5 to 4.7\% where the residual resistance ratio RRR has decreased from 14 at x = 1.5\% to values of 3, indicating a significant increase in disorder.