arXiv:1811.04941 Abstract | arXiv Analytics

arXiv:1811.04941 [cond-mat.dis-nn]Abstract References Reviews Resources

Algebraic Many-Body Localization and its implications on information propagation

Published 2018-11-12Version 1

We probe the existence of a many-body localized phase (MBL-phase) in a spinless fermionic Hubbard chain with algebraically localized single-particle states, by investigating both static and dynamical properties of the system. This MBL-phase can be characterized by an extensive number of integrals of motion which develop algebraically decaying tails, unlike the case of exponentially localized single-particle states. We focus on the implications for the quantum information propagation through the system. We provide evidence that the bipartite entanglement entropy after a quantum quench has an unbounded algebraic growth in time, while the quantum Fisher information grows logarithmically.

Categories: cond-mat.dis-nn

Keywords: algebraic many-body localization, implications, localized single-particle states, quantum fisher information grows, bipartite entanglement entropy

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