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Paper detail

Spectral Gaps and Incompressibility in a $ ν= 1/3 $ Fractional Quantum Hall System

We study an effective Hamiltonian for the standard $ν=1/3$ fractional quantum Hall system in the thin cylinder regime. We give a complete description of its ground state space in terms of what we call Fragmented Matrix Product States, which are labeled by a certain family of tilings of the one-dimensional lattice. We then prove that the model has a spectral gap above the ground states for a range of coupling constants that includes physical values. As a consequence of the gap we establish the incompressibility of the fractional quantum Hall states. We also show that all the ground states labeled by a tiling have a finite correlation length, for which we give an upper bound. We demonstrate by example, however, that not all superpositions of tiling states have exponential decay of correlations.

preprint2020arXivOpen access
Bruno NachtergaeleSimone WarzelAmanda Young
cond-mat.str-elmath-phmath.MP
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Bruno NachtergaeleSimone WarzelAmanda Young

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