Orbital chiral flux breaks a hidden antiunitary symmetry in a coplanar kagome altermagnet, activating Berry curvature and Hall conductivity in the complete absence of spin-orbit coupling.
Phenomenology of altermagnets
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Machine learning models that respect material symmetries are accelerating the identification of topological phases and the discovery of d-wave, g-wave, and i-wave altermagnets in quantum materials.
citing papers explorer
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Berry-Curvature Activation by Orbital Flux in a Kagome Altermagnet
Orbital chiral flux breaks a hidden antiunitary symmetry in a coplanar kagome altermagnet, activating Berry curvature and Hall conductivity in the complete absence of spin-orbit coupling.
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Machine Learning and Deep Learning in Quantum Materials: Symmetry, Topology, and the Rise of Altermagnets
Machine learning models that respect material symmetries are accelerating the identification of topological phases and the discovery of d-wave, g-wave, and i-wave altermagnets in quantum materials.