First-principles and tight-binding calculations on three FI/TI van der Waals stacks predict a magnetization-induced gap that supports half-quantized anomalous Hall conductance of e²/2h.
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Frustrated out-of-plane DMI favors atomic-scale 3q magnetic textures in Fe3GeXTe monolayers at moderate DMI scaling factors, evolving toward nanoskyrmion-like states at higher amplitudes.
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Half-quantized anomalous Hall conductance in topological insulator/ferromagnet van der Waals heterostructures
First-principles and tight-binding calculations on three FI/TI van der Waals stacks predict a magnetization-induced gap that supports half-quantized anomalous Hall conductance of e²/2h.
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Frustrated out-of-plane Dzyaloshinskii-Moriya interaction and the onset of atomic-scale 3$q$ magnetic textures in 2D Fe$_{3}$GeXTe (X = Te, Se, S) monolayers
Frustrated out-of-plane DMI favors atomic-scale 3q magnetic textures in Fe3GeXTe monolayers at moderate DMI scaling factors, evolving toward nanoskyrmion-like states at higher amplitudes.