Search

Article

x

留言板

姓名
邮箱
手机号码
标题
留言内容
验证码

downloadPDF
Citation:

Xing Xue-Yan, Li Xia-Xia, Chen Yu-Hui, Zhang Xiang-Dong
PDF
HTML
Get Citation
  • Like internet, connecting quantum computers together to build a full quantum network will enhance the ability to process quantum information. On-chip quantum memories can possess the essential functionalities in building a quantum network, including synchronizing a large number of quantum computers and implementing long-distance quantum communication. However, owning mainly to the constraints imposed by the micro-photonic structures themselves, on-chip quantum memories cannot satisfy the requirement for constructing the full quantum network for the incompatibility of their memory property and integration property. We here propose to build an on-chip quantum memory by using spatial-phase-mismatching effect in photonic crystal cavities. In this scenario, not only is the large orbital angular momentum of photonic crystal cavities utilized to realize photon-echo type memory, but also the light-matter enhancement of a photonic cavity is used to achieve a high-efficiency quantum storage.
        Corresponding author:Chen Yu-Hui,stephen.chen@bit.edu.cn
      • Funds:Project supported by the National Natural Science Foundation of China (Grant Nos. 62105033, 12174026), the Start-up Fund of Beijing Institute of Technology, China, and the Science and Technology Innovation Project of Beijing Institute of Technology, China.
      [1]

      [2]

      [3]

      [4]

      [5]

      [6]

      [7]

      [8]

      [9]

      [10]

      [11]

      [12]

      [13]

      [14]

      [15]

      [16]

      [17]

      [18]

      [19]

      [20]

      [21]

      [22]

      [23]

      [24]

      [25]

      [26]

      [27]

      [28]

      [29]

      [30]

    • [1]

      [2]

      [3]

      [4]

      [5]

      [6]

      [7]

      [8]

      [9]

      [10]

      [11]

      [12]

      [13]

      [14]

      [15]

      [16]

      [17]

      [18]

      [19]

      [20]

      [21]

      [22]

      [23]

      [24]

      [25]

      [26]

      [27]

      [28]

      [29]

      [30]

    Metrics
    • Abstract views:4031
    • PDF Downloads:132
    • Cited By:0
    Publishing process
    • Received Date:12 January 2022
    • Accepted Date:24 February 2022
    • Available Online:24 May 2022
    • Published Online:05 June 2022

      返回文章
      返回