Ion irradiation creates van der Waals planar defects in MnBi2Te4 that reduce magnetic anisotropy and suppress anomalous Hall effect by over an order of magnitude while preserving antiferromagnetic order and partial crystallinity.
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cond-mat.mtrl-sci 2years
2026 2verdicts
UNVERDICTED 2representative citing papers
DFT calculations identify a HS-LS-LS ordered spin state in strained LaCoO3 that stabilizes ferromagnetism via dominant 90-degree superexchange while maintaining an insulating gap.
citing papers explorer
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Disorder-driven symmetry suppression by van der Waals planar defects in a magnetic topological insulator
Ion irradiation creates van der Waals planar defects in MnBi2Te4 that reduce magnetic anisotropy and suppress anomalous Hall effect by over an order of magnitude while preserving antiferromagnetic order and partial crystallinity.
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Understanding insulating ferromagnetism in LaCoO3 films under tensile strain
DFT calculations identify a HS-LS-LS ordered spin state in strained LaCoO3 that stabilizes ferromagnetism via dominant 90-degree superexchange while maintaining an insulating gap.