Pair wave function symmetry in UTe2 from zero-energy surface state visualization

Qiangqiang Gu; Shuqiu Wang; Joseph P. Carroll; Kuanysh Zhussupbekov; Christopher Broyles; Sheng Ran; Nicholas P. Butch; Jarryd A. Horn; Shanta Saha; Johnpierre Paglione; Xiaolong Liu; J. C.Séamus Davis; Dung Hai Lee

doi:10.1126/science.adk7219

Pair wave function symmetry in UTe₂ from zero-energy surface state visualization

Qiangqiang Gu
, Shuqiu Wang
, Joseph P. Carroll
, Kuanysh Zhussupbekov
, Christopher Broyles
, Sheng Ran
, Nicholas P. Butch
, Jarryd A. Horn
, Shanta Saha
, Johnpierre Paglione
, Xiaolong Liu
, J. C.Séamus Davis
, Dung Hai Lee

School of Physics

Cornell University
University of Oxford
University of Bristol
University College Cork
Washington University St. Louis
University of Maryland, College Park
National Institute of Standards and Technology
Canadian Institute for Advanced Research
University of Notre Dame
Max Planck Institute for Chemical Physics of Solids
University of California at Berkeley
Lawrence Berkeley National Laboratory

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

Abstract

although nodal spin-triplet topological superconductivity appears probable in uranium ditelluride (UTe₂), its superconductive order parameter Δ_k remains unestablished. In theory, a distinctive identifier would be the existence of a superconductive topological surface band, which could facilitate zero-energy andreev tunneling to an s-wave superconductor and also distinguish a chiral from a nonchiral Δ_k through enhanced s-wave proximity. In this study, we used s-wave superconductive scan tips and detected intense zero-energy andreev conductance at the UTe₂ (0-11) termination surface. Imaging revealed subgap quasiparticle scattering interference signatures with a-axis orientation. The observed zero-energy andreev peak splitting with enhanced s-wave proximity signifies that Δ_k of UTe₂ is a nonchiral state: B₁u, B₂u, or B₃u.

Original language	English
Pages (from-to)	938-944
Number of pages	7
Journal	Science
Volume	388
Issue number	6750
DOIs	https://doi.org/10.1126/science.adk7219
Publication status	Published - 29 May 2025

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title = "Pair wave function symmetry in UTe2 from zero-energy surface state visualization",

abstract = "although nodal spin-triplet topological superconductivity appears probable in uranium ditelluride (UTe2), its superconductive order parameter Δk remains unestablished. In theory, a distinctive identifier would be the existence of a superconductive topological surface band, which could facilitate zero-energy andreev tunneling to an s-wave superconductor and also distinguish a chiral from a nonchiral Δk through enhanced s-wave proximity. In this study, we used s-wave superconductive scan tips and detected intense zero-energy andreev conductance at the UTe2 (0-11) termination surface. Imaging revealed subgap quasiparticle scattering interference signatures with a-axis orientation. The observed zero-energy andreev peak splitting with enhanced s-wave proximity signifies that Δk of UTe2 is a nonchiral state: B1u, B2u, or B3u.",

author = "Qiangqiang Gu and Shuqiu Wang and Carroll, \{Joseph P.\} and Kuanysh Zhussupbekov and Christopher Broyles and Sheng Ran and Butch, \{Nicholas P.\} and Horn, \{Jarryd A.\} and Shanta Saha and Johnpierre Paglione and Xiaolong Liu and Davis, \{J. C.S{\'e}amus\} and Lee, \{Dung Hai\}",

note = "Publisher Copyright: Copyright {\textcopyright} 2025 the authors, some rights reserved.",

year = "2025",

month = may,

day = "29",

doi = "10.1126/science.adk7219",

language = "English",

volume = "388",

pages = "938--944",

journal = "Science",

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TY - JOUR

T1 - Pair wave function symmetry in UTe2 from zero-energy surface state visualization

AU - Gu, Qiangqiang

AU - Wang, Shuqiu

AU - Carroll, Joseph P.

AU - Zhussupbekov, Kuanysh

AU - Broyles, Christopher

AU - Ran, Sheng

AU - Butch, Nicholas P.

AU - Horn, Jarryd A.

AU - Saha, Shanta

AU - Paglione, Johnpierre

AU - Liu, Xiaolong

AU - Davis, J. C.Séamus

AU - Lee, Dung Hai

PY - 2025/5/29

Y1 - 2025/5/29

N2 - although nodal spin-triplet topological superconductivity appears probable in uranium ditelluride (UTe2), its superconductive order parameter Δk remains unestablished. In theory, a distinctive identifier would be the existence of a superconductive topological surface band, which could facilitate zero-energy andreev tunneling to an s-wave superconductor and also distinguish a chiral from a nonchiral Δk through enhanced s-wave proximity. In this study, we used s-wave superconductive scan tips and detected intense zero-energy andreev conductance at the UTe2 (0-11) termination surface. Imaging revealed subgap quasiparticle scattering interference signatures with a-axis orientation. The observed zero-energy andreev peak splitting with enhanced s-wave proximity signifies that Δk of UTe2 is a nonchiral state: B1u, B2u, or B3u.

AB - although nodal spin-triplet topological superconductivity appears probable in uranium ditelluride (UTe2), its superconductive order parameter Δk remains unestablished. In theory, a distinctive identifier would be the existence of a superconductive topological surface band, which could facilitate zero-energy andreev tunneling to an s-wave superconductor and also distinguish a chiral from a nonchiral Δk through enhanced s-wave proximity. In this study, we used s-wave superconductive scan tips and detected intense zero-energy andreev conductance at the UTe2 (0-11) termination surface. Imaging revealed subgap quasiparticle scattering interference signatures with a-axis orientation. The observed zero-energy andreev peak splitting with enhanced s-wave proximity signifies that Δk of UTe2 is a nonchiral state: B1u, B2u, or B3u.

UR - https://www.scopus.com/pages/publications/105008898575

U2 - 10.1126/science.adk7219

DO - 10.1126/science.adk7219

M3 - Article

AN - SCOPUS:105008898575

SN - 0036-8075

VL - 388

SP - 938

EP - 944

JO - Science

JF - Science

IS - 6750

ER -

Pair wave function symmetry in UTe₂ from zero-energy surface state visualization

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