Generalized tight-binding model applied to twisted bilayer graphene reveals zero-gap semiconductor behavior with Dirac cones, saddle points at small angles, and hybridized Landau-level subgroups from Moire zone folding.
2008 Approaching the Dirac point in high-mobility multilayer epitaxial graphene.Phys
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Domain wall modulation of stacking in bilayer graphene induces zone folding that alters energy subbands, wave functions, density of states, and optical absorption spectra under external fields.
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Magneto-electronic properties of twisted bilayer graphene system
Generalized tight-binding model applied to twisted bilayer graphene reveals zero-gap semiconductor behavior with Dirac cones, saddle points at small angles, and hybridized Landau-level subgroups from Moire zone folding.
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Electronic and optical properties of stacking-configuration-modulated bilayer graphene in electric and magnetic fields
Domain wall modulation of stacking in bilayer graphene induces zone folding that alters energy subbands, wave functions, density of states, and optical absorption spectra under external fields.