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Paper detail

Operator Delocalization in Quantum Networks

We investigate the delocalization of operators in non-chaotic quantum systems whose interactions are encoded in an underlying graph or network. In particular, we study how fast operators of different sizes delocalize as the network connectivity is varied. We argue that these delocalization properties are well captured by Krylov complexity and show, numerically, that efficient delocalization of large operators can only happen within sufficiently connected network topologies. Finally, we demonstrate how this can be used to furnish a deeper understanding of the quantum charging advantage of a class of SYK-like quantum batteries.

preprint2021arXivOpen access
Joonho KimJeff MuruganJan OlleDario Rosa
cond-mat.str-elhep-thquant-ph
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Joonho KimJeff MuruganJan OlleDario Rosa

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