Closing the Locality and Detection Loopholes in Multiparticle Entanglement Self-Testing

Dian Wu; Qi Zhao; Can Wang; Liang Huang; Yang Fan Jiang; Bing Bai; You Zhou; Xue Mei Gu; Feng Ming Liu; Ying Qiu Mao; Qi Chao Sun; Ming Cheng Chen; Jun Zhang; Cheng Zhi Peng; Xiao Bo Zhu; Qiang Zhang; Chao Yang Lu; Jian Wei Pan

doi:10.1103/PhysRevLett.128.250401

Closing the Locality and Detection Loopholes in Multiparticle Entanglement Self-Testing

Dian Wu
, Qi Zhao
, Can Wang
, Liang Huang
, Yang Fan Jiang
, Bing Bai
, You Zhou
, Xue Mei Gu
, Feng Ming Liu
, Ying Qiu Mao
, Qi Chao Sun
, Ming Cheng Chen
, Jun Zhang
, Cheng Zhi Peng
, Xiao Bo Zhu
, Qiang Zhang
, Chao Yang Lu
, Jian Wei Pan

University of Science and Technology of China
Shanghai Research Center for Quantum Sciences
University of Maryland, College Park
Jinan Institute of Quantum Technology
Fudan University

科研成果: 期刊稿件 › 文章 › 同行评审

11 引用（Scopus）

摘要

First proposed by Mayers and Yao, self-testing provides a certification method to infer the underlying physics of quantum experiments in a black-box scenario. Numerous demonstrations have been reported to self-test various types of entangled states. However, all the multiparticle self-testing experiments reported so far suffer from both detection and locality loopholes. Here, we report the first experimental realization of multiparticle entanglement self-testing closing the locality loophole in a photonic system, and the detection loophole in a superconducting system, respectively. We certify three-party and four-party GHZ states with at least 0.84(1) and 0.86(3) fidelities in a device-independent way. These results can be viewed as a meaningful advance in multiparticle loophole-free self-testing, and also significant progress on the foundations of quantum entanglement certification.

源语言	英语
文章编号	250401
期刊	Physical Review Letters
卷	128
期	25
DOI	https://doi.org/10.1103/PhysRevLett.128.250401
出版状态	已出版 - 24 6月 2022
已对外发布	是

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Wu, D., Zhao, Q., Wang, C., Huang, L., Jiang, Y. F., Bai, B., Zhou, Y., Gu, X. M., Liu, F. M., Mao, Y. Q., Sun, Q. C., Chen, M. C., Zhang, J., Peng, C. Z., Zhu, X. B., Zhang, Q., Lu, C. Y., & Pan, J. W. (2022). Closing the Locality and Detection Loopholes in Multiparticle Entanglement Self-Testing. Physical Review Letters, 128(25), 文章 250401. https://doi.org/10.1103/PhysRevLett.128.250401

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title = "Closing the Locality and Detection Loopholes in Multiparticle Entanglement Self-Testing",

abstract = "First proposed by Mayers and Yao, self-testing provides a certification method to infer the underlying physics of quantum experiments in a black-box scenario. Numerous demonstrations have been reported to self-test various types of entangled states. However, all the multiparticle self-testing experiments reported so far suffer from both detection and locality loopholes. Here, we report the first experimental realization of multiparticle entanglement self-testing closing the locality loophole in a photonic system, and the detection loophole in a superconducting system, respectively. We certify three-party and four-party GHZ states with at least 0.84(1) and 0.86(3) fidelities in a device-independent way. These results can be viewed as a meaningful advance in multiparticle loophole-free self-testing, and also significant progress on the foundations of quantum entanglement certification.",

author = "Dian Wu and Qi Zhao and Can Wang and Liang Huang and Jiang, \{Yang Fan\} and Bing Bai and You Zhou and Gu, \{Xue Mei\} and Liu, \{Feng Ming\} and Mao, \{Ying Qiu\} and Sun, \{Qi Chao\} and Chen, \{Ming Cheng\} and Jun Zhang and Peng, \{Cheng Zhi\} and Zhu, \{Xiao Bo\} and Qiang Zhang and Lu, \{Chao Yang\} and Pan, \{Jian Wei\}",

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doi = "10.1103/PhysRevLett.128.250401",

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AU - Bai, Bing

AU - Zhou, You

AU - Gu, Xue Mei

AU - Liu, Feng Ming

AU - Mao, Ying Qiu

AU - Sun, Qi Chao

AU - Chen, Ming Cheng

AU - Zhang, Jun

AU - Peng, Cheng Zhi

AU - Zhu, Xiao Bo

AU - Zhang, Qiang

AU - Lu, Chao Yang

AU - Pan, Jian Wei

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AB - First proposed by Mayers and Yao, self-testing provides a certification method to infer the underlying physics of quantum experiments in a black-box scenario. Numerous demonstrations have been reported to self-test various types of entangled states. However, all the multiparticle self-testing experiments reported so far suffer from both detection and locality loopholes. Here, we report the first experimental realization of multiparticle entanglement self-testing closing the locality loophole in a photonic system, and the detection loophole in a superconducting system, respectively. We certify three-party and four-party GHZ states with at least 0.84(1) and 0.86(3) fidelities in a device-independent way. These results can be viewed as a meaningful advance in multiparticle loophole-free self-testing, and also significant progress on the foundations of quantum entanglement certification.

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Closing the Locality and Detection Loopholes in Multiparticle Entanglement Self-Testing

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