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

17 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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10.1103/PhysRevLett.127.230503

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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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SN - 0031-9007

VL - 127

JO - Physical Review Letters

JF - Physical Review Letters

IS - 23

M1 - A182

ER -

Robust Self-Testing of Multiparticle Entanglement

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