QUANTUM NETWORKS BASED ON CAVITY QED

被引:0
|
作者
Mabuchi, H. [1 ]
Armen, M. [1 ]
Lev, B. [1 ]
Loncar, M. [1 ]
Vuckovic, J. [1 ]
Kimble, H. J. [1 ]
Preskill, J. [1 ]
Roukes, M. [1 ]
Scherer, A. [1 ]
van Enk, S. J. [2 ]
机构
[1] CALTECH, Pasadena, CA 91125 USA
[2] Lucent Technol Bell Labs, Murray Hill, NJ 07974 USA
来源
QUANTUM INFORMATION & COMPUTATION | 2001年 / 1卷
关键词
D O I
暂无
中图分类号
TP301 [理论、方法];
学科分类号
081202 ;
摘要
We review an ongoing program of interdisciplinary research aimed at developing hardware and protocols for quantum communication networks. Our primary experimental goals are to demonstrate quantum state mapping from storage/processing media (internal states of trapped atoms) to transmission media (optical photons), and to investigate a nanotechnology paradigm for cavity QED that would involve the integration of magnetic microtraps with photonic bandgap structures.
引用
收藏
页码:7 / 12
页数:6
相关论文
共 50 条
  • [31] Quantum information processing with cavity QED
    Hood, CJ
    Lynn, TW
    Mabuchi, H
    Chapman, MS
    Ye, J
    Kimble, HJ
    PHOTONIC QUANTUM COMPUTING II, 1998, 3385 : 95 - 100
  • [32] Quantum jump dynamics in cavity QED
    Spehner, D
    Orszag, M
    JOURNAL OF MATHEMATICAL PHYSICS, 2002, 43 (07) : 3511 - 3537
  • [33] Universal quantum cloning in cavity QED
    Milman, P
    Ollivier, H
    Raimond, JM
    PHYSICAL REVIEW A, 2003, 67 (01):
  • [34] Optimization of cavity parameters for high-speed quantum computation based on cavity QED
    Utsugi, Takeru
    Asaoka, Rui
    Tokunaga, Yuuki
    Aoki, Takao
    2020 CONFERENCE ON LASERS AND ELECTRO-OPTICS PACIFIC RIM (CLEO-PR), 2020,
  • [35] The quantum Zeno effect and quantum feedback in cavity QED
    Dotsenko, I.
    Bernu, J.
    Deleglise, S.
    Sayrin, C.
    Brune, M.
    Raimond, J-M
    Haroche, S.
    Mirrahimi, M.
    Rouchon, P.
    PHYSICA SCRIPTA, 2010, T140
  • [36] Cavity QED based tuneable, delayed-choice quantum eraser
    Imran, Muhammad
    Abbas, Tasawar
    Rameez-ul-Islam
    Ikram, Manzoor
    ANNALS OF PHYSICS, 2016, 364 : 160 - 167
  • [37] Quantum phase gate based on multiphoton process in multimode cavity QED
    Alqahtani, Moteb M.
    QUANTUM INFORMATION PROCESSING, 2018, 17 (09)
  • [38] Quantum Dense Coding Based on Entangled Bell State in Cavity QED
    N. Zhang
    International Journal of Theoretical Physics, 2013, 52 : 2833 - 2837
  • [39] Quantum-statistical property of optical diode based on cavity QED
    Li, Haozhen
    Xu, Jingping
    Wang, Da-Wei
    Xia, Xiuwen
    Yang, Yaping
    Zhu, Shiyao
    PHYSICAL REVIEW A, 2017, 96 (01)
  • [40] Quantum Dense Coding Based on Entangled Bell State in Cavity QED
    Zhang, N.
    INTERNATIONAL JOURNAL OF THEORETICAL PHYSICS, 2013, 52 (08) : 2833 - 2837
12345