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Main Authors: Jiang, Hao-Miao, Chen, Xiang-Jiang, Wang, Liu-Jun, Chen, Qing
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.20403
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author Jiang, Hao-Miao
Chen, Xiang-Jiang
Wang, Liu-Jun
Chen, Qing
author_facet Jiang, Hao-Miao
Chen, Xiang-Jiang
Wang, Liu-Jun
Chen, Qing
contents This work investigates network nonlocality sharing for a broad class of bipartite Bell inequalities in a generalized star network with an $(n,m,k)$ configuration, comprising $n$ independent branches, $m$ sequential Alices per branch, and $k$ measurement settings per party. On each branch, the intermediate Alices implement optimal weak measurements, whereas the final Alice and the central Bob perform sharp projective measurements. Network nonlocality sharing is witnessed when the quantum values of the network correlations associated with relevant parties simultaneously violate a star-network Bell inequality generated from the given class of bipartite Bell inequalities. We streamline the calculation of the quantum values of the network correlations and derive an analytical expression for the bipartite quantum correlator, valid for arbitrary measurement settings and weak-measurement strengths. The network nonlocality sharing for Vértesi inequalities has been studied within the framework, and simultaneous violations are found in $(2,2,6)$ and $(2,2,465)$ cases, with the latter exhibiting greater robustness. Our approach suggests a practical route to studying network nonlocality sharing by utilizing diverse bipartite Bell inequalities beyond the commonly used CHSH-type constructions.
format Preprint
id arxiv_https___arxiv_org_abs_2601_20403
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Network Nonlocality Sharing in Generalized Star Network from Bipartite Bell Inequalities
Jiang, Hao-Miao
Chen, Xiang-Jiang
Wang, Liu-Jun
Chen, Qing
Quantum Physics
This work investigates network nonlocality sharing for a broad class of bipartite Bell inequalities in a generalized star network with an $(n,m,k)$ configuration, comprising $n$ independent branches, $m$ sequential Alices per branch, and $k$ measurement settings per party. On each branch, the intermediate Alices implement optimal weak measurements, whereas the final Alice and the central Bob perform sharp projective measurements. Network nonlocality sharing is witnessed when the quantum values of the network correlations associated with relevant parties simultaneously violate a star-network Bell inequality generated from the given class of bipartite Bell inequalities. We streamline the calculation of the quantum values of the network correlations and derive an analytical expression for the bipartite quantum correlator, valid for arbitrary measurement settings and weak-measurement strengths. The network nonlocality sharing for Vértesi inequalities has been studied within the framework, and simultaneous violations are found in $(2,2,6)$ and $(2,2,465)$ cases, with the latter exhibiting greater robustness. Our approach suggests a practical route to studying network nonlocality sharing by utilizing diverse bipartite Bell inequalities beyond the commonly used CHSH-type constructions.
title Network Nonlocality Sharing in Generalized Star Network from Bipartite Bell Inequalities
topic Quantum Physics
url https://arxiv.org/abs/2601.20403