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Autori principali: Vieira, Lucas B., Ku, Huan-Yu, Budroni, Costantino
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2402.16789
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author Vieira, Lucas B.
Ku, Huan-Yu
Budroni, Costantino
author_facet Vieira, Lucas B.
Ku, Huan-Yu
Budroni, Costantino
contents Entanglement-breaking channels (equivalently, measure-and-prepare channels) are an important class of quantum operations noted for their ability to destroy multipartite spatial quantum correlations. Inspired by this property, they have also been employed in defining notions of "classical memory", under the assumption that such channels effectively act as a classical resource. We show that, in a single-system multi-time scenario, entanglement-breaking channels are still a quantum memory resource: a qudit going through an entanglement-breaking channel cannot be simulated by a classical system of same dimension. We provide explicit examples of memory-based output generation tasks where entanglement-breaking channels outperform classical memories of the same size. Our results imply that entanglement-breaking channels cannot be generally employed to characterize classical memory effects in temporal scenarios without additional assumptions.
format Preprint
id arxiv_https___arxiv_org_abs_2402_16789
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Entanglement-breaking channels are a quantum memory resource
Vieira, Lucas B.
Ku, Huan-Yu
Budroni, Costantino
Quantum Physics
Entanglement-breaking channels (equivalently, measure-and-prepare channels) are an important class of quantum operations noted for their ability to destroy multipartite spatial quantum correlations. Inspired by this property, they have also been employed in defining notions of "classical memory", under the assumption that such channels effectively act as a classical resource. We show that, in a single-system multi-time scenario, entanglement-breaking channels are still a quantum memory resource: a qudit going through an entanglement-breaking channel cannot be simulated by a classical system of same dimension. We provide explicit examples of memory-based output generation tasks where entanglement-breaking channels outperform classical memories of the same size. Our results imply that entanglement-breaking channels cannot be generally employed to characterize classical memory effects in temporal scenarios without additional assumptions.
title Entanglement-breaking channels are a quantum memory resource
topic Quantum Physics
url https://arxiv.org/abs/2402.16789