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Paper detail

Stabilizing Disorder-Free Localization

Disorder-free localization is a paradigm of nonergodicity in translation-invariant quantum many-body systems hosting gauge symmetries. The quench dynamics starting from simple initial states, which correspond to extensive superpositions of gauge superselection sectors, exhibits many-body localization with the system dynamically inducing its own disorder. An open question concerns the stability of disorder-free localization in the presence of gauge-breaking errors, and whether processes due to the latter can be controllably suppressed. Here, we show that translation-invariant \textit{single-body gauge terms} induce a quantum Zeno effect that reliably protects disorder-free localization against errors up to times at least polynomial in the protection strength. Our experimentally feasible scheme not only shows that disorder-free localization can be reliably stabilized, but also opens promising prospects for its observation in quantum simulators.

preprint2022arXivOpen access
Jad C. HalimehHongzheng ZhaoPhilipp HaukeJohannes Knolle
cond-mat.stat-mechcond-mat.str-elcond-mat.dis-nncond-mat.quant-gasquant-ph
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Jad C. HalimehHongzheng ZhaoPhilipp HaukeJohannes Knolle

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