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Main Authors: Khanian, Zahra, Lee, Dongjin, Leung, Debbie, Li, Zhi, May, Alex, Mori, Takato, Miao, Stanley, Salek, Farzin, Yi, Jinmin, Yoshida, Beni
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2509.21462
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author Khanian, Zahra
Lee, Dongjin
Leung, Debbie
Li, Zhi
May, Alex
Mori, Takato
Miao, Stanley
Salek, Farzin
Yi, Jinmin
Yoshida, Beni
author_facet Khanian, Zahra
Lee, Dongjin
Leung, Debbie
Li, Zhi
May, Alex
Mori, Takato
Miao, Stanley
Salek, Farzin
Yi, Jinmin
Yoshida, Beni
contents We ask how quantum correlations can be distributed among many subsystems. To address this, we define entanglement sharing schemes (ESS) where certain pairs of subsystems allow entanglement to be recovered via local operations, while other pairs must not. ESS schemes come in two variants, one where the partner system with which entanglement should be prepared is known, and one where it is not. In the case of known partners, we fully characterize the access structures realizable for ESS when using stabilizer states, and construct efficient schemes for threshold access structures, and give a conjecture for the access structures realizable with general states. In the unknown partner case, we again give a complete characterization in the stabilizer setting, additionally give a complete characterization of the case where there are no restrictions on unauthorized pairs, and we prove a set of necessary conditions on general schemes which we conjecture are also sufficient. Finally, we give an application of the theory of entanglement sharing to resolve an open problem related to the distribution of entanglement in response to time-sensitive requests in quantum networks.
format Preprint
id arxiv_https___arxiv_org_abs_2509_21462
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Entanglement sharing schemes
Khanian, Zahra
Lee, Dongjin
Leung, Debbie
Li, Zhi
May, Alex
Mori, Takato
Miao, Stanley
Salek, Farzin
Yi, Jinmin
Yoshida, Beni
Quantum Physics
We ask how quantum correlations can be distributed among many subsystems. To address this, we define entanglement sharing schemes (ESS) where certain pairs of subsystems allow entanglement to be recovered via local operations, while other pairs must not. ESS schemes come in two variants, one where the partner system with which entanglement should be prepared is known, and one where it is not. In the case of known partners, we fully characterize the access structures realizable for ESS when using stabilizer states, and construct efficient schemes for threshold access structures, and give a conjecture for the access structures realizable with general states. In the unknown partner case, we again give a complete characterization in the stabilizer setting, additionally give a complete characterization of the case where there are no restrictions on unauthorized pairs, and we prove a set of necessary conditions on general schemes which we conjecture are also sufficient. Finally, we give an application of the theory of entanglement sharing to resolve an open problem related to the distribution of entanglement in response to time-sensitive requests in quantum networks.
title Entanglement sharing schemes
topic Quantum Physics
url https://arxiv.org/abs/2509.21462