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Intrinsic anomalous Hall effect in altermagnets

Lotan Attias, Alex Levchenko, Maxim Khodas

2024Physical review. B./Physical review. B53 citationsDOI

Abstract

We study the anomalous Hall effect arising from the altermagnetic order and spin-orbit interaction in doped ${\mathrm{FeSb}}_{2}$. To investigate the anomalous transport, we have constructed a tight-binding model of ${\mathrm{FeSb}}_{2}$. We separately considered the constraints imposed on the model parameters by the spin symmetry group and magnetic symmetry group at zero and finite spin-orbit interaction, respectively. The resulting model includes the effect of exchange splitting and is applicable at both zero and finite spin-orbit interaction. In the case of spin symmetry, the analysis covers the spin-only subgroup arising from collinear magnetism, as well as nontrivial symmetry elements. This allows us to explore changes in the hopping amplitudes as symmetry is reduced by spin-orbit interaction from the spin group to the magnetic group. While the anomalous Hall effect is forbidden by spin symmetry, it is allowed by the symmetries of the magnetic group. The intrinsic Hall conductivity is shown to vanish linearly with spin-orbit interaction. This nonanalytic behavior is universal to altermagnets. It originates from the singularity of the Berry curvature localized along lines on a Fermi surface confined to symmetry planes. These planes host spin degeneracy protected by spin symmetry, which is lifted by spin-orbit interaction.

Topics & Concepts

Hall effectCondensed matter physicsPhysicsPsychologyQuantum mechanicsMagnetic fieldMagnetic properties of thin filmsMagnetic Field Sensors TechniquesAtomic and Subatomic Physics Research
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