Efficient Measurement of Multiparticle Entanglement with Embedding Quantum Simulator

Ming Cheng Chen; Dian Wu; Zu En Su; Xin Dong Cai; Xi Lin Wang; Tao Yang; Li Li; Nai Le Liu; Chao Yang Lu; Jian Wei Pan

doi:10.1103/PhysRevLett.116.070502

Efficient Measurement of Multiparticle Entanglement with Embedding Quantum Simulator

Ming Cheng Chen
, Dian Wu
, Zu En Su
, Xin Dong Cai
, Xi Lin Wang
, Tao Yang
, Li Li
, Nai Le Liu
, Chao Yang Lu
, Jian Wei Pan

University of Science and Technology of China

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

18 Scopus citations

Abstract

The quantum measurement of entanglement is a demanding task in the field of quantum information. Here, we report the direct and scalable measurement of multiparticle entanglement with embedding photonic quantum simulators. In this embedding framework [R. Di Candia et al. Phys. Rev. Lett. 111, 240502 (2013)], the N-qubit entanglement, which does not associate with a physical observable directly, can be efficiently measured with only two (for even N) and six (for odd N) local measurement settings. Our experiment uses multiphoton quantum simulators to mimic dynamical concurrence and three-tangle entangled systems and to track their entanglement evolutions.

Original language	English
Article number	070502
Journal	Physical Review Letters
Volume	116
Issue number	7
DOIs	https://doi.org/10.1103/PhysRevLett.116.070502
State	Published - 18 Feb 2016
Externally published	Yes

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title = "Efficient Measurement of Multiparticle Entanglement with Embedding Quantum Simulator",

abstract = "The quantum measurement of entanglement is a demanding task in the field of quantum information. Here, we report the direct and scalable measurement of multiparticle entanglement with embedding photonic quantum simulators. In this embedding framework [R. Di Candia et al. Phys. Rev. Lett. 111, 240502 (2013)], the N-qubit entanglement, which does not associate with a physical observable directly, can be efficiently measured with only two (for even N) and six (for odd N) local measurement settings. Our experiment uses multiphoton quantum simulators to mimic dynamical concurrence and three-tangle entangled systems and to track their entanglement evolutions.",

author = "Chen, \{Ming Cheng\} and Dian Wu and Su, \{Zu En\} and Cai, \{Xin Dong\} and Wang, \{Xi Lin\} and Tao Yang and Li Li and Liu, \{Nai Le\} and Lu, \{Chao Yang\} and Pan, \{Jian Wei\}",

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doi = "10.1103/PhysRevLett.116.070502",

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AU - Chen, Ming Cheng

AU - Wu, Dian

AU - Su, Zu En

AU - Cai, Xin Dong

AU - Wang, Xi Lin

AU - Yang, Tao

AU - Li, Li

AU - Liu, Nai Le

AU - Lu, Chao Yang

AU - Pan, Jian Wei

PY - 2016/2/18

Y1 - 2016/2/18

N2 - The quantum measurement of entanglement is a demanding task in the field of quantum information. Here, we report the direct and scalable measurement of multiparticle entanglement with embedding photonic quantum simulators. In this embedding framework [R. Di Candia et al. Phys. Rev. Lett. 111, 240502 (2013)], the N-qubit entanglement, which does not associate with a physical observable directly, can be efficiently measured with only two (for even N) and six (for odd N) local measurement settings. Our experiment uses multiphoton quantum simulators to mimic dynamical concurrence and three-tangle entangled systems and to track their entanglement evolutions.

AB - The quantum measurement of entanglement is a demanding task in the field of quantum information. Here, we report the direct and scalable measurement of multiparticle entanglement with embedding photonic quantum simulators. In this embedding framework [R. Di Candia et al. Phys. Rev. Lett. 111, 240502 (2013)], the N-qubit entanglement, which does not associate with a physical observable directly, can be efficiently measured with only two (for even N) and six (for odd N) local measurement settings. Our experiment uses multiphoton quantum simulators to mimic dynamical concurrence and three-tangle entangled systems and to track their entanglement evolutions.

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VL - 116

JO - Physical Review Letters

JF - Physical Review Letters

IS - 7

M1 - 070502

ER -

Efficient Measurement of Multiparticle Entanglement with Embedding Quantum Simulator

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