Litcius/Paper detail

Tuning magnetic confinement of spin-triplet superconductivity

Wen-Chen Lin, Daniel J. Campbell, Sheng Ran, I-Lin Liu, Hyunsoo Kim, Andriy H. Nevidomskyy, David Graf, Nicholas P. Butch, Johnpierre Paglione

2020npj Quantum Materials53 citationsDOIOpen Access PDF

Abstract

Abstract Electrical magnetoresistance and tunnel diode oscillator measurements were performed under external magnetic fields up to 41 T applied along the crystallographic b axis (hard axis) of UTe 2 as a function of temperature and applied pressures up to 18.8 kbar. In this work, we track the field-induced first-order transition between superconducting and magnetic field-polarized phases as a function of applied pressure, showing suppression of the transition with increasing pressure until the demise of superconductivity near 16 kbar and the appearance of a pressure-induced ferromagnetic-like ground state that is distinct from the field-polarized phase and stable at zero field. Together with evidence for the evolution of a second superconducting phase and its upper critical field with pressure, we examine the confinement of superconductivity by two orthogonal magnetic phases and the implications for understanding the boundaries of triplet superconductivity.

Topics & Concepts

Condensed matter physicsSuperconductivityMagnetic fieldPhysicsPhase (matter)MagnetoresistanceGround statePhase transitionTunnel diodeCritical fieldMaterials scienceGiant magnetoresistanceMagnetic fluxSuperconducting coherence lengthField (mathematics)Josephson effectDiodeType-II superconductorQuantum phase transitionSupercurrentFunction (biology)Phase diagramTransition temperatureRare-earth and actinide compoundsIron-based superconductors researchTopological Materials and Phenomena