Strong correlations suppress spin splitting in MnF2 via band narrowing, enable it in MnTe through Mn 3d-Te 5p hybridization, and produce itinerant splitting without local moments in RuO2.
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Theoretical analysis of topological phase transitions, Berry curvature, and edge-state hybridization in 2D d-wave altermagnets, leading to a proposed topological altermagnetic field-effect transistor.
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Strong electron correlations and ligand hybridization for altermagnetism
Strong correlations suppress spin splitting in MnF2 via band narrowing, enable it in MnTe through Mn 3d-Te 5p hybridization, and produce itinerant splitting without local moments in RuO2.
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Real and momentum space analysis of topological phases in 2D d-wave altermagnets
Theoretical analysis of topological phase transitions, Berry curvature, and edge-state hybridization in 2D d-wave altermagnets, leading to a proposed topological altermagnetic field-effect transistor.