Numerical study of the Kane-Mele-Hubbard-Rashba model reveals ordinary, special BKT-type, and extraordinary boundary transitions enriched by topological edge states.
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Simulations reveal that random charged impurities and short-range disorder drive quantum Hall systems from incompressible fractional liquids through locally ordered solids to amorphous states, with charged impurities supporting longer-range order.
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Boundary criticality in two-dimensional interacting topological insulators
Numerical study of the Kane-Mele-Hubbard-Rashba model reveals ordinary, special BKT-type, and extraordinary boundary transitions enriched by topological edge states.
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Interplay of disorder and interaction in quantum Hall systems: from fractional quantum Hall liquids to Wigner crystals and amorphous solids
Simulations reveal that random charged impurities and short-range disorder drive quantum Hall systems from incompressible fractional liquids through locally ordered solids to amorphous states, with charged impurities supporting longer-range order.