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Magnetic field-induced nontrivial spin chirality and large topological Hall effect in kagome magnet ScMn6Sn6

Huai Zhang, Can Liu, Yajiu Zhang, Zhipeng Hou, Xuewen Fu, Xiaoming Zhang, Xingsen Gao, Jun‐Ming Liu

2022Applied Physics Letters30 citationsDOI

Abstract

RMn6Sn6 (R = rare earth element) kagome magnets have attracted much attention owing to their potential for realizing the emerging topological properties in both reciprocal and real spaces. One of the RMn6Sn6 members, ScMn6Sn6, is predicted to possess room temperature-stabilized chiral spin textures arising from frustrated exchange interactions, but further experimental evidence has not been well established yet. In this work, we fabricate high-quality ScMn6Sn6 single crystals and systematically study their magnetoelectric transport properties. A large topological Hall effect is observed within the temperature range from 100 to 320 K with the magnetic field applied along the parallel direction of the kagome plane. This observation suggests that the spin textures in ScMn6Sn6 have a nonzero scalar spin chirality over a wide temperature range. Our results identify ScMn6Sn6 as a promising member of the rare earth element kagome magnets that hosts chiral spin textures at room temperature.

Topics & Concepts

Condensed matter physicsChirality (physics)MagnetSpin (aerodynamics)Hall effectTopology (electrical circuits)Magnetic fieldSpin Hall effectPhysicsTopological insulatorSpin polarizationQuantum mechanicsChiral anomalyFermionElectronMathematicsCombinatoricsNambu–Jona-Lasinio modelThermodynamicsAdvanced Condensed Matter PhysicsMagnetic properties of thin filmsTopological Materials and Phenomena
Magnetic field-induced nontrivial spin chirality and large topological Hall effect in kagome magnet ScMn6Sn6 | Litcius