Phonon Hall viscosity distinguishes altermagnets through strain-space Berry curvature monopoles and shows sensitivity to electronic features like gapped Dirac points.
Title resolution pending
4 Pith papers cite this work. Polarity classification is still indexing.
citation-role summary
citation-polarity summary
verdicts
UNVERDICTED 4roles
background 1polarities
background 1representative citing papers
Mode-selective spin-phonon coupling in spin-orbit-coupled Mott insulators generates a peak-dip-peak field dependence in spin heat current via Landauer transport and exact diagonalization.
Phonon Hall viscosity in α-RuCl₃, measured via acoustic Faraday effect, accounts for a substantial part of the material's intrinsic thermal Hall conductivity.
Spin-orbit coupling enriches spin-phonon interactions in α-RuCl₃ to produce finite phonon Berry curvatures and a thermal Hall effect that qualitatively matches measured κ_xy field dependence.
citing papers explorer
-
Anomalous Hall viscosity of altermagnets
Phonon Hall viscosity distinguishes altermagnets through strain-space Berry curvature monopoles and shows sensitivity to electronic features like gapped Dirac points.
-
Understanding Anomalous Magnetothermal Transport via Disentangling Shear and Compression Phonons
Mode-selective spin-phonon coupling in spin-orbit-coupled Mott insulators generates a peak-dip-peak field dependence in spin heat current via Landauer transport and exact diagonalization.
-
Phonon Hall Viscosity and the Intrinsic Thermal Hall Effect of $\alpha$-RuCl$_3$
Phonon Hall viscosity in α-RuCl₃, measured via acoustic Faraday effect, accounts for a substantial part of the material's intrinsic thermal Hall conductivity.
-
Theory of Intrinsic Phonon Thermal Hall Effect in $\alpha$-RuCl$_3$
Spin-orbit coupling enriches spin-phonon interactions in α-RuCl₃ to produce finite phonon Berry curvatures and a thermal Hall effect that qualitatively matches measured κ_xy field dependence.