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Evidence for unbounded growth of the number entropy in many-body localized phases

We investigate the number entropy $S_N$---which characterizes particle-number fluctuations between subsystems---following a quench in one-dimensional interacting many-body systems with potential disorder. We find evidence that in the regime which is expected to show many-body localization (MBL) and where the entanglement entropy grows as $S\sim \ln t$ as function of time $t$, the number entropy grows as $S_N\sim\ln\ln t$, indicating continuing particle transport at a very slow rate. We demonstrate that this growth is consistent with a relation between entanglement and number entropy recently established for non-interacting systems.

preprint2020arXivOpen access
Maximilian Kiefer-EmmanouilidisRazmik UnanyanMichael FleischhauerJesko Sirker
cond-mat.str-elcond-mat.dis-nncond-mat.quant-gas
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Maximilian Kiefer-EmmanouilidisRazmik UnanyanMichael FleischhauerJesko Sirker

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