Band inversion between orbital doublet and isolated orbital creates interaction-shielded QBCP gapped by intrinsic SOC, enabling robust QAH in proposed MNX2 monolayers.
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First-principles study demonstrates spin-orbit torque switching of Néel order and layer-resolved Chern marker in band-inverted antiferromagnetic bilayer MnBi2Te4.
citing papers explorer
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Revisiting quadratic band crossing: from interaction-driven instability to intrinsic topology
Band inversion between orbital doublet and isolated orbital creates interaction-shielded QBCP gapped by intrinsic SOC, enabling robust QAH in proposed MNX2 monolayers.
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Spin-orbit torque switching of N\'eel order in band-inverted antiferromagnetic bilayer MnBi$_2$Te$_4$
First-principles study demonstrates spin-orbit torque switching of Néel order and layer-resolved Chern marker in band-inverted antiferromagnetic bilayer MnBi2Te4.