Physical Review X (Feb 2023)

Field-Induced Tuning of the Pairing State in a Superconductor

  • A. Rosuel,
  • C. Marcenat,
  • G. Knebel,
  • T. Klein,
  • A. Pourret,
  • N. Marquardt,
  • Q. Niu,
  • S. Rousseau,
  • A. Demuer,
  • G. Seyfarth,
  • G. Lapertot,
  • D. Aoki,
  • D. Braithwaite,
  • J. Flouquet,
  • J. P. Brison

DOI
https://doi.org/10.1103/PhysRevX.13.011022
Journal volume & issue
Vol. 13, no. 1
p. 011022

Abstract

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The recently discovered superconductor UTe_{2}, with a superconducting transition temperature T_{c} between 1.5 and 2 K, is attracting much attention due to strong suspicion of spin-triplet and topological superconductivity. Its properties under magnetic field are also remarkable, with field-reinforced (H∥b) and field-induced [H in the (b,c) plane] superconducting phases. Here, we report the first complete thermodynamic determination of the phase diagram for fields applied along the three crystallographic directions. For field along the easy a axis, we uncover a strong negative curvature of the upper critical field very close to T_{c}, revealing a strong suppression of the pairing strength at low magnetic fields. By contrast, measurements performed up to 36 T along the hard magnetization b axis confirm a bulk field-reinforced superconducting phase. Most of all, they also reveal the existence of a phase transition line within the superconducting phase. Drastic differences occur between the low-field and high-field phases pointing to different pairing mechanisms. Detailed analysis suggests a possible transition between a low-field spin-triplet to high-field spin-singlet state, a unique case among superconductors.