A new projection technique in continuum moiré models yields chiral, layer-polarized edge states in twisted WSe2 nanoribbons that match bulk Chern numbers and are electrically tunable.
arXiv preprint arXiv:2504.11530 , year=
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False vacuum decay in flat-band ferromagnets shows that quantum geometry governs magnetization bubble dynamics in metals and allows dynamical access to chiral edge modes in quantum Hall ferromagnets.
citing papers explorer
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Topological Edge States Emerging from Twisted Moir\'e Bands
A new projection technique in continuum moiré models yields chiral, layer-polarized edge states in twisted WSe2 nanoribbons that match bulk Chern numbers and are electrically tunable.
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False Vacuum Decay in Flat-Band Ferromagnets: Role of Quantum Geometry and Chiral Edge States
False vacuum decay in flat-band ferromagnets shows that quantum geometry governs magnetization bubble dynamics in metals and allows dynamical access to chiral edge modes in quantum Hall ferromagnets.