Chip-based quantum communications

被引:0
|
作者
Qingqing Wang [1 ]
Yun Zheng [1 ]
Chonghao Zhai [1 ]
Xudong Li [1 ]
Qihuang Gong [1 ,2 ,3 ,4 ]
Jianwei Wang [1 ,2 ,3 ,4 ]
机构
[1] State Key Laboratory for Mesoscopic Physics, School of Physics, Peking University
[2] Frontiers Science Center for Nano-optoelectronics and Collaborative Innovation Center of Quantum Matter, Peking University
[3] Collaborative Innovation Center of Extreme Optics, Shanxi University
[4] Peking University Yangtze Delta Institute of
来源
Journal of Semiconductors | 2021年 / 09期
关键词
D O I
暂无
中图分类号
O413 [量子论]; TN918 [通信保密与通信安全];
学科分类号
0839 ; 1402 ;
摘要
Quantum communications aim to share encryption keys between the transmitters and receivers governed by the laws of quantum mechanics. Integrated quantum photonics offers significant advantages of dense integration, high stability and scalability, which enables a vital platform for the implementation of quantum information processing and quantum communications. This article reviews recent experimental progress and advances in the development of integrated quantum photonic devices and systems for quantum communications and quantum networks.
引用
收藏
页码:33 / 40
页数:8
相关论文
共 50 条
  • [1] Chip-based quantum communications
    Qingqing Wang
    Yun Zheng
    Chonghao Zhai
    Xudong Li
    Qihuang Gong
    Jianwei Wang
    Journal of Semiconductors, 2021, 42 (09) : 33 - 40
  • [2] Chip-based quantum communications
    Sibson, P.
    Erven, C.
    Kennard, J.
    Price, A. B.
    Llewellyn, D.
    Wang, J.
    Thompson, M. G.
    2018 EUROPEAN CONFERENCE ON OPTICAL COMMUNICATION (ECOC), 2018,
  • [3] Chip-based quantum communications
    Wang, Qingqing
    Zheng, Yun
    Zhai, Chonghao
    Li, Xudong
    Gong, Qihuang
    Wang, Jianwei
    JOURNAL OF SEMICONDUCTORS, 2021, 42 (09)
  • [4] Chip-based quantum key distribution
    Sibson, P.
    Erven, C.
    Godfrey, M.
    Miki, S.
    Yamashita, T.
    Fujiwara, M.
    Sasaki, M.
    Terai, H.
    Tanner, M. G.
    Natarajan, C. M.
    Hadfield, R. H.
    O'Brien, J. L.
    Thompson, M. G.
    NATURE COMMUNICATIONS, 2017, 8
  • [5] Chip-based quantum key distribution
    Kwek L.-C.
    Cao L.
    Luo W.
    Wang Y.
    Sun S.
    Wang X.
    Liu A.Q.
    AAPPS Bulletin, 31 (1):
  • [6] Chip-based quantum key distribution
    P. Sibson
    C. Erven
    M. Godfrey
    S. Miki
    T. Yamashita
    M. Fujiwara
    M. Sasaki
    H. Terai
    M. G. Tanner
    C. M. Natarajan
    R. H. Hadfield
    J. L. O’Brien
    M. G. Thompson
    Nature Communications, 8
  • [7] Advances in Chip-Based Quantum Key Distribution
    Liu, Qiang
    Huang, Yinming
    Du, Yongqiang
    Zhao, Zhengeng
    Geng, Minming
    Zhang, Zhenrong
    Wei, Kejin
    ENTROPY, 2022, 24 (10)
  • [8] The Trap - Toward a chip-based quantum computer
    Monroe, Christopher
    Sterk, Jonathan D.
    Stick, Daniel
    IEEE SPECTRUM, 2007, 44 (08) : 36 - 43
  • [9] Advances on Chip-Based QKD in Bristol Quantum Network
    Aktas, D.
    Rosenfeld, L.
    Johlinger, F.
    Hastings, E.
    Rarity, J. G.
    2021 CONFERENCE ON LASERS AND ELECTRO-OPTICS EUROPE & EUROPEAN QUANTUM ELECTRONICS CONFERENCE (CLEO/EUROPE-EQEC), 2021,
  • [10] Nanophotonic technology for chip-based quantum light sources
    Davanco, Marcelo
    2018 OPTICAL FIBER COMMUNICATIONS CONFERENCE AND EXPOSITION (OFC), 2018,
12345