Litcius/Paper detail

Magnetization-driven Lifshitz transition and charge-spin coupling in the kagome metal YMn6Sn6

Peter Siegfried, Hari Bhandari, David C. Jones, Madhav Prasad Ghimire, Rebecca L. Dally, L. Poudel, Markus Bleuel, J. W. Lynn, I. I. Mazin, N. Ghimire

2022Communications Physics27 citationsDOIOpen Access PDF

Abstract

Abstract The Fermi surface (FS) is essential for understanding the properties of metals. It can change under both conventional symmetry-breaking phase transitions and Lifshitz transitions (LTs), where the FS, but not the crystal symmetry, changes abruptly. Magnetic phase transitions involving uniformly rotating spin textures are conventional in nature, requiring strong spin-orbit coupling (SOC) to influence the FS topology and generate measurable properties. LTs driven by a continuously varying magnetization are rarely discussed. Here we present two such manifestations in the magnetotransport of the kagome magnet YMn 6 Sn 6 : one caused by changes in the magnetic structure and another by a magnetization-driven LT. The former yields a 10% magnetoresistance enhancement without a strong SOC, while the latter a 45% reduction in the resistivity. These phenomena offer a unique view into the interplay of magnetism and electronic topology, and for understanding the rare-earth counterparts, such as TbMn 6 Sn 6 , recently shown to harbor correlated topological physics.

Topics & Concepts

Condensed matter physicsMagnetizationMagnetoresistanceMagnetismPhysicsCoupling (piping)Fermi surfaceTopology (electrical circuits)Symmetry (geometry)Phase transitionSpin (aerodynamics)Magnetic fieldMaterials scienceQuantum mechanicsSuperconductivityGeometryMetallurgyMathematicsThermodynamicsCombinatoricsTopological Materials and PhenomenaAdvanced Condensed Matter PhysicsGraphene research and applications