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Bibliographic Details
Main Authors: Bernal, A., Casas, J. A., Moreno, J. M.
Format: Preprint
Published: 2023
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Online Access:https://arxiv.org/abs/2307.05205
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author Bernal, A.
Casas, J. A.
Moreno, J. M.
author_facet Bernal, A.
Casas, J. A.
Moreno, J. M.
contents Quantum entanglement and quantum entropy are crucial concepts in the study of multipartite quantum systems. In this work we show how the notion of concurrence vector, re-expressed in a particularly useful form, provides new insights and computational tools for the analysis of both. In particular, using this approach for a general multipartite pure state, one can easily prove known relations in an easy way and to build up new relations between the concurrences associated with the different bipartitions. The approach is also useful to derive sufficient conditions for genuine entanglement in generic multipartite systems that are computable in polynomial time. From an entropy-of-entanglement perspective, the approach is powerful to prove properties of the Tsallis-$2$ entropy, such as the subadditivity, and to derive new ones, e.g. a modified version of the strong subadditivity which is always fulfilled; thanks to the purification theorem these results hold for any multipartite state, whether pure or mixed.
format Preprint
id arxiv_https___arxiv_org_abs_2307_05205
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Entanglement and entropy in multipartite systems: a useful approach
Bernal, A.
Casas, J. A.
Moreno, J. M.
Quantum Physics
High Energy Physics - Theory
Quantum entanglement and quantum entropy are crucial concepts in the study of multipartite quantum systems. In this work we show how the notion of concurrence vector, re-expressed in a particularly useful form, provides new insights and computational tools for the analysis of both. In particular, using this approach for a general multipartite pure state, one can easily prove known relations in an easy way and to build up new relations between the concurrences associated with the different bipartitions. The approach is also useful to derive sufficient conditions for genuine entanglement in generic multipartite systems that are computable in polynomial time. From an entropy-of-entanglement perspective, the approach is powerful to prove properties of the Tsallis-$2$ entropy, such as the subadditivity, and to derive new ones, e.g. a modified version of the strong subadditivity which is always fulfilled; thanks to the purification theorem these results hold for any multipartite state, whether pure or mixed.
title Entanglement and entropy in multipartite systems: a useful approach
topic Quantum Physics
High Energy Physics - Theory
url https://arxiv.org/abs/2307.05205