Experimental Gaussian Boson sampling

Han Sen Zhong; Li Chao Peng; Yuan Li; Yi Hu; Wei Li; Jian Qin; Dian Wu; Weijun Zhang; Hao Li; Lu Zhang; Zhen Wang; Lixing You; Xiao Jiang; Li Li; Nai Le Liu; Jonathan P. Dowling; Chao Yang Lu; Jian Wei Pan

doi:10.1016/j.scib.2019.04.007

Experimental Gaussian Boson sampling

Han Sen Zhong
, Li Chao Peng
, Yuan Li
, Yi Hu
, Wei Li
, Jian Qin
, Dian Wu
, Weijun Zhang
, Hao Li
, Lu Zhang
, Zhen Wang
, Lixing You
, Xiao Jiang
, Li Li
, Nai Le Liu
, Jonathan P. Dowling
, Chao Yang Lu^*
, Jian Wei Pan

^*此作品的通讯作者

University of Science and Technology of China
CAS - Shanghai Institute of Microsystem and Information Technology
Louisiana State University
NYU-ECNU Center for Computational Chemistry at NYU Shanghai

科研成果: 期刊稿件 › 文章 › 同行评审

66 引用（Scopus）

摘要

Gaussian Boson sampling (GBS) provides a highly efficient approach to make use of squeezed states from parametric down-conversion to solve a classically hard-to-solve sampling problem. The GBS protocol not only significantly enhances the photon generation probability, compared to standard Boson sampling with single photon Fock states, but also links to potential applications such as dense subgraph problems and molecular vibronic spectra. Here, we report the first experimental demonstration of GBS using squeezed-state sources with simultaneously high photon indistinguishability and collection efficiency. We implement and validate 3-, 4- and 5-photon GBS with high sampling rates of 832, 163 and 23 kHz, respectively, which is more than 4.4, 12.0, and 29.5 times faster than the previous experiments. Further, we observe a quantum speed-up on a NP-hard optimization problem when comparing with simulated thermal sampler and uniform sampler.

源语言	英语
页（从-至）	511-515
页数	5
期刊	Science Bulletin
卷	64
期	8
DOI	https://doi.org/10.1016/j.scib.2019.04.007
出版状态	已出版 - 30 4月 2019
已对外发布	是

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title = "Experimental Gaussian Boson sampling",

abstract = "Gaussian Boson sampling (GBS) provides a highly efficient approach to make use of squeezed states from parametric down-conversion to solve a classically hard-to-solve sampling problem. The GBS protocol not only significantly enhances the photon generation probability, compared to standard Boson sampling with single photon Fock states, but also links to potential applications such as dense subgraph problems and molecular vibronic spectra. Here, we report the first experimental demonstration of GBS using squeezed-state sources with simultaneously high photon indistinguishability and collection efficiency. We implement and validate 3-, 4- and 5-photon GBS with high sampling rates of 832, 163 and 23 kHz, respectively, which is more than 4.4, 12.0, and 29.5 times faster than the previous experiments. Further, we observe a quantum speed-up on a NP-hard optimization problem when comparing with simulated thermal sampler and uniform sampler.",

keywords = "Boson sampling, Gaussian Boson sampling, Quantum advantage, Quantum approximate optimization, Quantum information, Squeezed state",

author = "Zhong, \{Han Sen\} and Peng, \{Li Chao\} and Yuan Li and Yi Hu and Wei Li and Jian Qin and Dian Wu and Weijun Zhang and Hao Li and Lu Zhang and Zhen Wang and Lixing You and Xiao Jiang and Li Li and Liu, \{Nai Le\} and Dowling, \{Jonathan P.\} and Lu, \{Chao Yang\} and Pan, \{Jian Wei\}",

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day = "30",

doi = "10.1016/j.scib.2019.04.007",

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T1 - Experimental Gaussian Boson sampling

AU - Zhong, Han Sen

AU - Peng, Li Chao

AU - Li, Yuan

AU - Hu, Yi

AU - Li, Wei

AU - Qin, Jian

AU - Wu, Dian

AU - Zhang, Weijun

AU - Li, Hao

AU - Zhang, Lu

AU - Wang, Zhen

AU - You, Lixing

AU - Jiang, Xiao

AU - Li, Li

AU - Liu, Nai Le

AU - Dowling, Jonathan P.

AU - Lu, Chao Yang

AU - Pan, Jian Wei

PY - 2019/4/30

Y1 - 2019/4/30

N2 - Gaussian Boson sampling (GBS) provides a highly efficient approach to make use of squeezed states from parametric down-conversion to solve a classically hard-to-solve sampling problem. The GBS protocol not only significantly enhances the photon generation probability, compared to standard Boson sampling with single photon Fock states, but also links to potential applications such as dense subgraph problems and molecular vibronic spectra. Here, we report the first experimental demonstration of GBS using squeezed-state sources with simultaneously high photon indistinguishability and collection efficiency. We implement and validate 3-, 4- and 5-photon GBS with high sampling rates of 832, 163 and 23 kHz, respectively, which is more than 4.4, 12.0, and 29.5 times faster than the previous experiments. Further, we observe a quantum speed-up on a NP-hard optimization problem when comparing with simulated thermal sampler and uniform sampler.

AB - Gaussian Boson sampling (GBS) provides a highly efficient approach to make use of squeezed states from parametric down-conversion to solve a classically hard-to-solve sampling problem. The GBS protocol not only significantly enhances the photon generation probability, compared to standard Boson sampling with single photon Fock states, but also links to potential applications such as dense subgraph problems and molecular vibronic spectra. Here, we report the first experimental demonstration of GBS using squeezed-state sources with simultaneously high photon indistinguishability and collection efficiency. We implement and validate 3-, 4- and 5-photon GBS with high sampling rates of 832, 163 and 23 kHz, respectively, which is more than 4.4, 12.0, and 29.5 times faster than the previous experiments. Further, we observe a quantum speed-up on a NP-hard optimization problem when comparing with simulated thermal sampler and uniform sampler.

KW - Boson sampling

KW - Gaussian Boson sampling

KW - Quantum advantage

KW - Quantum approximate optimization

KW - Quantum information

KW - Squeezed state

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DO - 10.1016/j.scib.2019.04.007

M3 - 文章

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SN - 2095-9273

VL - 64

SP - 511

EP - 515

JO - Science Bulletin

JF - Science Bulletin

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Experimental Gaussian Boson sampling

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