Robust Self-Testing of Multiparticle Entanglement

Dian Wu; Qi Zhao; Xue Mei Gu; Han Sen Zhong; You Zhou; Li Chao Peng; Jian Qin; Yi Han Luo; Kai Chen; Li Li; Nai Le Liu; Chao Yang Lu; Jian Wei Pan

doi:10.1103/PhysRevLett.127.230503

Robust Self-Testing of Multiparticle Entanglement

Dian Wu, Qi Zhao, Xue Mei Gu, Han Sen Zhong, You Zhou, Li Chao Peng, Jian Qin, Yi Han Luo, Kai Chen, Li Li, Nai Le Liu, Chao Yang Lu, Jian Wei Pan

Research output: Contribution to journal › Article › peer-review

14 Scopus citations

Abstract

Quantum self-testing is a device-independent way to certify quantum states and measurements using only the input-output statistics, with minimal assumptions about the quantum devices. Because of the high demand on tolerable noise, however, experimental self-testing was limited to two-photon systems. Here, we demonstrate the first robust self-testing for multiphoton genuinely entangled quantum states. We prepare two examples of four-photon graph states, the Greenberger-Horne-Zeilinger states with a fidelity of 0.957(2) and the linear cluster states with a fidelity of 0.945(2). Based on the observed input-output statistics, we certify the genuine four-photon entanglement and further estimate their qualities with respect to realistic noise in a device-independent manner.

Original language	English
Article number	A182
Journal	Physical Review Letters
Volume	127
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.127.230503
State	Published - 3 Dec 2021
Externally published	Yes

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title = "Robust Self-Testing of Multiparticle Entanglement",

abstract = "Quantum self-testing is a device-independent way to certify quantum states and measurements using only the input-output statistics, with minimal assumptions about the quantum devices. Because of the high demand on tolerable noise, however, experimental self-testing was limited to two-photon systems. Here, we demonstrate the first robust self-testing for multiphoton genuinely entangled quantum states. We prepare two examples of four-photon graph states, the Greenberger-Horne-Zeilinger states with a fidelity of 0.957(2) and the linear cluster states with a fidelity of 0.945(2). Based on the observed input-output statistics, we certify the genuine four-photon entanglement and further estimate their qualities with respect to realistic noise in a device-independent manner.",

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doi = "10.1103/PhysRevLett.127.230503",

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AU - Wu, Dian

AU - Zhao, Qi

AU - Gu, Xue Mei

AU - Zhong, Han Sen

AU - Zhou, You

AU - Peng, Li Chao

AU - Qin, Jian

AU - Luo, Yi Han

AU - Chen, Kai

AU - Li, Li

AU - Liu, Nai Le

AU - Lu, Chao Yang

AU - Pan, Jian Wei

PY - 2021/12/3

Y1 - 2021/12/3

N2 - Quantum self-testing is a device-independent way to certify quantum states and measurements using only the input-output statistics, with minimal assumptions about the quantum devices. Because of the high demand on tolerable noise, however, experimental self-testing was limited to two-photon systems. Here, we demonstrate the first robust self-testing for multiphoton genuinely entangled quantum states. We prepare two examples of four-photon graph states, the Greenberger-Horne-Zeilinger states with a fidelity of 0.957(2) and the linear cluster states with a fidelity of 0.945(2). Based on the observed input-output statistics, we certify the genuine four-photon entanglement and further estimate their qualities with respect to realistic noise in a device-independent manner.

AB - Quantum self-testing is a device-independent way to certify quantum states and measurements using only the input-output statistics, with minimal assumptions about the quantum devices. Because of the high demand on tolerable noise, however, experimental self-testing was limited to two-photon systems. Here, we demonstrate the first robust self-testing for multiphoton genuinely entangled quantum states. We prepare two examples of four-photon graph states, the Greenberger-Horne-Zeilinger states with a fidelity of 0.957(2) and the linear cluster states with a fidelity of 0.945(2). Based on the observed input-output statistics, we certify the genuine four-photon entanglement and further estimate their qualities with respect to realistic noise in a device-independent manner.

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DO - 10.1103/PhysRevLett.127.230503

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JO - Physical Review Letters

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Robust Self-Testing of Multiparticle Entanglement

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