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Paper detail

Identifying Many-Body Localization in Realistic Dot Arrays

We determine whether or not it is possible to identify many-body localization in quantum dot arrays, given their current technological capacities. We analyze the phase diagram of an extended Fermi-Hubbard model - a theoretical system that quantum dot arrays are known to simulate - using several quantities of varying experimental accessibility. By deriving the parameters of our model from our experimental system, we find that many-body localization can potentially be detected in current-generation quantum dot arrays. A pitfall that we identify is that the freezing of a system due to strong interactions yields signatures similar to conventional localization. We find that the most widely-used experimental signature of localization - the imbalance - is not sensitive to this fact, and may be unsuitable as the lone identifier of the many-body localized regime.

preprint2023arXivOpen access
Alexander Nico-KatzGulzat JalielPaola AtkinsonThomas A. MitchellDavid A. RitchieCharles G. SmithSougato Bose
cond-mat.dis-nn
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Alexander Nico-KatzGulzat JalielPaola AtkinsonThomas A. MitchellDavid A. RitchieCharles G. SmithSougato Bose

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