Bulk signatures of re-entrant superconductivity in UTe$_2$ from ultrasound measurements

TL;DR

This study uses ultrasound measurements to explore the bulk properties of the re-entrant superconducting phase in UTe$_2$, revealing unique vortex dynamics and confirming high critical magnetic fields.

Contribution

First ultrasound investigation of UTe$_2$'s re-entrant superconductivity, identifying bulk signatures and vortex behavior up to 80 T and 0.5 K.

Findings

Bulk superconductivity confirmed up to 65 T at 0.5 K

Anomalies suggest unusual vortex pinning and dynamics

Superconductivity persists above the metamagnetic transition

Abstract

We report bulk ultrasound measurements up to 80 T and down to 0.5 K of the field re-entrant superconducting phase of the unconventional superconductor UTe$_2$. Clear bulk signatures of superconductivity are observed in the longitudinal elastic mode $c_{11}$ for fields applied at a tilt angle of $\theta_{b-c} =30^\circ$ from $b$-axis. We confirm an upper critical field of $H_{\rm c2}\approx65$ T at 0.5 K and bulk superconductivity which survives up to $T\approx 2$ K for fields above the metamagnetic transition. The $c_{11}$ mode has propagation and displacement vectors along the $a$-axis, and for fields applied at a tilt angle of $\theta_{b-c} =30^\circ$, this mode is sensitive to the elasticity of the vortex lattice. The anomalies observed in $c_{11}$ are in part reminiscent of superconducting vortices pinned to lattice defects. Nonetheless, an excess attenuation, with respect to the normal state, is observed throughout the entire superconducting phase, suggesting unusual vortex dynamics and pinning in the field re-entrant superconducting phase of UTe$_2$.