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Entanglement Theory Quantum Correlations
Genuine tripartite entanglement in Bhabha scattering with an entangled spectator particle
arXiv
Authors: Zan Cao, Meng-Long Song, Xue-Ke Song, Liu Ye, Dong Wang
Year
2026
Paper ID
56612
Status
Preprint
Abstract Read
~2 min
Abstract Words
197
Citations
N/A
Abstract
From the perspective of quantum information science, we investigate tree-level Bhabha scattering between an incident electron A and a positron B, where B is initially entangled with a spectator electron C, which does not participate in the scattering interaction.We find that the quantum electrodynamics (QED) scattering between A and B can drive the global ABC system into a genuine tripartite entangled (GTE) state. Using four canonical tripartite entanglement metrics, we systematically characterize and quantify the GTE of the composite system, and demonstrate that the scattering momentum of the A-B pair and the initial B-C entanglement are the key resources governing GTE generation.We further analyze the monogamy of quantum correlations, which imposes fundamental constraints on the shareability of quantum resources in multipartite systems. Specifically, we systematically study the monogamy relations for the squared entanglement of formation and squared quantum discord in our scattering model, and find that monogamy constraints are markedly relaxed in the non-relativistic regime, enabling enhanced shareability of quantum correlations across the three particles. This work uncovers novel quantum correlation properties of fundamental QED scattering processes, and provides direct theoretical guidance for the development of QED-based quantum information processing protocols.
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- This paper contributes to the Entanglement Theory & Quantum Correlations research area in the Quantum Articles archive.
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- From the perspective of quantum information science, we investigate tree-level Bhabha scattering between an incident electron A and a positron B, where B is initially entangled...
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