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Main Authors: Jiang, Jun-Li, Liu, Xin-Zhu, Yang, Xue, Ding, Xiuyong, Zhang, Da, Luo, Ming-Xing
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2506.21060
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author Jiang, Jun-Li
Liu, Xin-Zhu
Yang, Xue
Ding, Xiuyong
Zhang, Da
Luo, Ming-Xing
author_facet Jiang, Jun-Li
Liu, Xin-Zhu
Yang, Xue
Ding, Xiuyong
Zhang, Da
Luo, Ming-Xing
contents Nonlocality is a key feature of quantum networks and is being studied for its potential applications in quantum communication and computing. Understanding and harnessing nonlocality in quantum networks could lead to the development of faster and more secure communication systems. All the nonclassicalities are limited to discrete variable quantum networks. We propose the first method to verify the network nonlocality of all optical quantum network consisting of two entangled states where one-way classical communication is allowed. This provides the first device-independent method to verify the quantum correlations generated from all optical continuous-variable quantum networks.
format Preprint
id arxiv_https___arxiv_org_abs_2506_21060
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle One-way network nonlocality of continuous variable entangled networks
Jiang, Jun-Li
Liu, Xin-Zhu
Yang, Xue
Ding, Xiuyong
Zhang, Da
Luo, Ming-Xing
Quantum Physics
Nonlocality is a key feature of quantum networks and is being studied for its potential applications in quantum communication and computing. Understanding and harnessing nonlocality in quantum networks could lead to the development of faster and more secure communication systems. All the nonclassicalities are limited to discrete variable quantum networks. We propose the first method to verify the network nonlocality of all optical quantum network consisting of two entangled states where one-way classical communication is allowed. This provides the first device-independent method to verify the quantum correlations generated from all optical continuous-variable quantum networks.
title One-way network nonlocality of continuous variable entangled networks
topic Quantum Physics
url https://arxiv.org/abs/2506.21060