Lattice model states for Laughlin, Moore-Read, and Z_k Read-Rezayi fractional quantum Hall series are constructed with idealized energy, entanglement, and modified clustering properties distinct from continuum versions.
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Optical absorption peaks and generalized Hall conductivity provide signatures of band flatness, bandwidth, gaps, and Berry curvature properties in magic-angle twisted bilayer graphene, tied to conditions for superconductivity and fractional Chern phases.
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Generalized Model Fractional Quantum Hall States on Lattices
Lattice model states for Laughlin, Moore-Read, and Z_k Read-Rezayi fractional quantum Hall series are constructed with idealized energy, entanglement, and modified clustering properties distinct from continuum versions.
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Optical Signatures of Band Flatness and Anisotropic Quantum Geometry in Magic-Angle Twisted Bilayer Graphene
Optical absorption peaks and generalized Hall conductivity provide signatures of band flatness, bandwidth, gaps, and Berry curvature properties in magic-angle twisted bilayer graphene, tied to conditions for superconductivity and fractional Chern phases.