Doping the Kane-Mele-Hubbard model at filling ν=1 induces quantum anomalous Hall crystals with skyrmion spin textures and topological domain walls hosting chiral modes.
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Long-range electron interactions in MoTe2/WSe2 heterobilayers at filling v=2 generate a robust Quantum Valley Hall Insulator, with competition between s-wave and p±ip-wave states and a Zeeman-field-induced Quantum Anomalous Hall state in one valley.
citing papers explorer
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Doping-induced Quantum Anomalous Hall Crystals and Topological Domain Walls
Doping the Kane-Mele-Hubbard model at filling ν=1 induces quantum anomalous Hall crystals with skyrmion spin textures and topological domain walls hosting chiral modes.
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Emergent Quantum Valley Hall Insulator from Electron Interactions in Transition-Metal Dichalcogenide Heterobilayers
Long-range electron interactions in MoTe2/WSe2 heterobilayers at filling v=2 generate a robust Quantum Valley Hall Insulator, with competition between s-wave and p±ip-wave states and a Zeeman-field-induced Quantum Anomalous Hall state in one valley.