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:10.1103/PhysRevX.13.011022

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

CEA-INAC-PHELIQS
LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)
Chinese Academy of Sciences
Tohoku University

Research output: Contribution to journal › Article › peer-review

Abstract

The recently discovered superconductor UTe2, with a superconducting transition temperature Tc 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 Tc, 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.

Original language	English
Article number	011022
Journal	Physical Review X
Volume	13
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevX.13.011022
Publication status	Published - 1 Jan 2023
Externally published	Yes

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10.1103/PhysRevX.13.011022

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title = "Field-Induced Tuning of the Pairing State in a Superconductor",

abstract = "The recently discovered superconductor UTe2, with a superconducting transition temperature Tc 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 Tc, 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.",

author = "A. Rosuel and C. Marcenat and G. Knebel and T. Klein and A. Pourret and N. Marquardt and Q. Niu and S. Rousseau and A. Demuer and G. Seyfarth and G. Lapertot and D. Aoki and D. Braithwaite and J. Flouquet and Brison, \{J. P.\}",

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AU - Rosuel, A.

AU - Marcenat, C.

AU - Knebel, G.

AU - Klein, T.

AU - Pourret, A.

AU - Marquardt, N.

AU - Niu, Q.

AU - Rousseau, S.

AU - Demuer, A.

AU - Seyfarth, G.

AU - Lapertot, G.

AU - Aoki, D.

AU - Braithwaite, D.

AU - Flouquet, J.

AU - Brison, J. P.

N1 - Publisher Copyright: © 2023 authors. Published by the American Physical Society. Published by the American Physical Society under the terms of the "https://creativecommons.org/licenses/by/4.0/"Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article's title, journal citation, and DOI.

PY - 2023/1/1

Y1 - 2023/1/1

N2 - The recently discovered superconductor UTe2, with a superconducting transition temperature Tc 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 Tc, 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.

AB - The recently discovered superconductor UTe2, with a superconducting transition temperature Tc 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 Tc, 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.

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ER -

Field-Induced Tuning of the Pairing State in a Superconductor

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