Altermagnetic sublattice order imposes momentum-dependent nodes in the superconducting gap for local pairing interactions and favors nonunitary equal-spin triplet superconductivity at large spin splitting.
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4 Pith papers cite this work. Polarity classification is still indexing.
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Nanoscale imaging of epitaxial MnTe films reveals interfacial-origin weak magnetization that correlates with the anomalous Hall effect and can be controlled by external fields.
First-principles and tight-binding analysis shows ligand-assisted coupling dominates altermagnetic spin-splitting in Co1/4NbSe2.
Gating a finite normal region between a superconducting altermagnet and a metallic reservoir produces perfect nonreciprocal spin and charge currents with tunable polarity via gate voltage and region length.
citing papers explorer
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Imaging Surface Magnetization in Altermagnetic MnTe Films
Nanoscale imaging of epitaxial MnTe films reveals interfacial-origin weak magnetization that correlates with the anomalous Hall effect and can be controlled by external fields.
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Ligand-mediated Origin of Altermagnetic Spin-Splitting
First-principles and tight-binding analysis shows ligand-assisted coupling dominates altermagnetic spin-splitting in Co1/4NbSe2.
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Perfect spin nonreciprocity in gated superconducting altermagnetic heterostructures
Gating a finite normal region between a superconducting altermagnet and a metallic reservoir produces perfect nonreciprocal spin and charge currents with tunable polarity via gate voltage and region length.