Litcius/Paper detail

Competing magnetic phases and fluctuation-driven scalar spin chirality in the kagome metal YMn <sub>6</sub> Sn <sub>6</sub>

Nirmal J. Ghimire, Rebecca L. Dally, L. Poudel, D. C. Jones, D. Michel, N. Thapa Magar, M. Bleuel, Michael A. McGuire, J. S. Jiang, J. F. Mitchell, Jeffrey W. Lynn, I. I. Mazin

2020Science Advances227 citationsDOIOpen Access PDF

Abstract

by magnetometry, transport, and neutron diffraction measurements combined with first-principles calculations. We identify a number of nontrivial magnetic phases, explain their microscopic nature, and demonstrate that one of them hosts a large topological Hall effect (THE). We propose a previously unidentified fluctuation-driven mechanism, which leads to the THE at elevated temperatures. This interesting physics comes from parametrically frustrated interplanar exchange interactions that trigger strong magnetic fluctuations. Our results pave a path to chiral spin textures, promising for novel spintronics.

Topics & Concepts

PhysicsCondensed matter physicsMagnetic fieldSpin (aerodynamics)Scalar (mathematics)Chirality (physics)QuantumNeutron diffractionSkyrmionElectronMagnetMagnetic structureMetalParamagnetismSpin structureDiffractionField (mathematics)Theoretical physicsQuantum mechanicsHall effectMagnetic momentPath (computing)Magnetic domainMagnetizationTopology (electrical circuits)Topological Materials and PhenomenaAdvanced Condensed Matter PhysicsRare-earth and actinide compounds