Elliptically polarized light irradiation converts d-wave altermagnets into Chern insulators, yielding quantized thermal Hall conductivity and gap-edge peaks in the thermoelectric Hall response.
Topological textures and emergent altermagnetic sig- natures in ultrathin BiFeO3
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D-wave altermagnets on Bi2Se3 surfaces induce a layer Hall effect with zero net Hall conductance for antiparallel Néel vectors and a quantized Chern state for parallel vectors.
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.
citing papers explorer
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Anomalous thermoelectric and thermal Hall effects in irradiated altermagnets
Elliptically polarized light irradiation converts d-wave altermagnets into Chern insulators, yielding quantized thermal Hall conductivity and gap-edge peaks in the thermoelectric Hall response.
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Layer Hall effect induced by altermagnetism
D-wave altermagnets on Bi2Se3 surfaces induce a layer Hall effect with zero net Hall conductance for antiparallel Néel vectors and a quantized Chern state for parallel vectors.
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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.