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Classical magnetic vortex liquid and large thermal Hall conductivity in frustrated magnets with bond-dependent interactions

Li Ern Chern, Finn Lasse Buessen, Yong Baek Kim

2021npj Quantum Materials13 citationsDOIOpen Access PDF

Abstract

Abstract Recently, the observation of large thermal Hall conductivities in correlated insulators with no apparent broken symmetry has generated immense interest and debates on the underlying ground states. Here, considering frustrated magnets with bond-dependent interactions, which are realized in the so-called Kitaev materials, we theoretically demonstrate that a large thermal Hall conductivity can originate from a classical ground state without any magnetic order. We discover a liquid state of magnetic vortices, which are inhomogeneous spin textures embedded in the background of polarized spins, under out-of-plane magnetic fields. In the classical regime, different configurations of vortices form an effectively degenerate manifold. We study the static and dynamical properties of the magnetic vortex liquid state at zero and finite temperatures. In particular, we show that the spin excitation spectrum resembles a continuum of nearly flat Chern bands, which ultimately leads to a large thermal Hall conductivity. Possible connections to experiments are discussed.

Topics & Concepts

Condensed matter physicsPhysicsThermal Hall effectMagnetDegenerate energy levelsVortexThermal conductivityExcitationGround stateMagnetic fieldThermalHall effectSymmetry (geometry)Quantum spin liquidSymmetry breakingPoint reflectionVortex stateSpin (aerodynamics)MagnetizationSpin Hall effectSpin waveThermal conductionThermal fluctuationsMagnetic domainAdvanced Condensed Matter PhysicsTopological Materials and PhenomenaPhysics of Superconductivity and Magnetism
Classical magnetic vortex liquid and large thermal Hall conductivity in frustrated magnets with bond-dependent interactions | Litcius