Antiferromagnets with multiple magnetic sublattices host non-Abelian SU(N) gauge fields in magnon bands that prevent Berry curvature cancellation and enable a robust magnon thermal Hall response.
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A new algorithm applies Hubbard U corrections to electron-phonon g matrices via finite-displacement DFT+U, applied to 20% hole-doped LaNiO2 and strained RuO2, finding modest coupling increase insufficient for observed Tc in nickelates but stabilization and reduced coupling in ruthenates.
citing papers explorer
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Classification of magnon thermal Hall systems based on U(1) to non-Abelian gauge fields
Antiferromagnets with multiple magnetic sublattices host non-Abelian SU(N) gauge fields in magnon bands that prevent Berry curvature cancellation and enable a robust magnon thermal Hall response.
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Hubbard-$U$-corrected electron-phonon interactions in strongly correlated materials via the finite-displacement method
A new algorithm applies Hubbard U corrections to electron-phonon g matrices via finite-displacement DFT+U, applied to 20% hole-doped LaNiO2 and strained RuO2, finding modest coupling increase insufficient for observed Tc in nickelates but stabilization and reduced coupling in ruthenates.