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Quasi-2D Fermi surface in the anomalous superconductor UTe2

Alexander G. Eaton, Theodore I. Weinberger, N. J. M. Popiel, Z. Wu, A. J. Hickey, A. Cabala, Jiří Pospíšil, Ján Prokleška, Tetiana Haidamak, Gaël Bastien, Petr Opletal, H. Sakai, Yoshinori Haga, R. Nowell, Shermane M. Benjamin, V. Sechovský, G. G. Lonzarich, F. M. Grosche, Michal Vališka

2024Nature Communications52 citationsDOIOpen Access PDF

Abstract

Abstract The heavy fermion paramagnet UTe 2 exhibits numerous characteristics of spin-triplet superconductivity. Efforts to understand the microscopic details of this exotic superconductivity have been impeded by uncertainty regarding the underlying electronic structure. Here we directly probe the Fermi surface of UTe 2 by measuring magnetic quantum oscillations in pristine quality crystals. We find an angular profile of quantum oscillatory frequency and amplitude that is characteristic of a quasi-2D Fermi surface, which we find is well described by two cylindrical Fermi sheets of electron- and hole-type respectively. Additionally, we find that both cylindrical Fermi sheets possess considerable undulation but negligible small-scale corrugation, which may allow for their near-nesting and therefore promote magnetic fluctuations that enhance the triplet pairing mechanism. Importantly, we find no evidence for the presence of any 3D Fermi surface sections. Our results place strong constraints on the possible symmetry of the superconducting order parameter in UTe 2 .

Topics & Concepts

Fermi surfaceCondensed matter physicsPhysicsSuperconductivityQuantum oscillationsFermi Gamma-ray Space TelescopePairingFermi gasSpin (aerodynamics)Symmetry (geometry)ElectronParamagnetismQuantumQuantum mechanicsGeometryMathematicsThermodynamicsRare-earth and actinide compoundsAdvanced Condensed Matter PhysicsPhysics of Superconductivity and Magnetism
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