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Weyl metallic state induced by helical magnetic order

Jian-Rui Soh, Irián Sánchez-Ramírez, Xupeng Yang, Jinzhao Sun, Ivica Živković, J. Alberto Rodríguez‐Velamazán, Óscar Fabelo, A. Stunault, A. Bombardi, Christian Balz, Manh Duc Le, H. C. Walker, J. Hugo Dil, D. Prabhakaran, H. M. Rønnow, Fernando de Juan, Maia G. Vergniory, A. T. Boothroyd

2024npj Quantum Materials13 citationsDOIOpen Access PDF

Abstract

Abstract In the rapidly expanding field of topological materials there is growing interest in systems whose topological electronic band features can be induced or controlled by magnetism. Magnetic Weyl semimetals, which contain linear band crossings near the Fermi level, are of particular interest owing to their exotic charge and spin transport properties. Up to now, the majority of magnetic Weyl semimetals have been realized in ferro- or ferrimagnetically ordered compounds, but a disadvantage of these materials for practical use is their stray magnetic field which limits the minimum size of devices. Here we show that Weyl nodes can be induced by a helical spin configuration, in which the magnetization is fully compensated. Using a combination of neutron diffraction and resonant elastic x-ray scattering, we find that below T N = 14.5 K the Eu spins in EuCuAs develop a planar helical structure which induces two quadratic Weyl nodes with Chern numbers C = ±2 at the A point in the Brillouin zone.

Topics & Concepts

Brillouin zoneCondensed matter physicsPhysicsMagnetizationSpin (aerodynamics)MagnetismMagnetic fieldTopology (electrical circuits)Fermi levelMagnetic structureQuantum mechanicsMathematicsElectronCombinatoricsThermodynamicsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsGraphene research and applications
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