Quantum gate in the decoherence-free subspace of trapped-ion qubits

被引:8
|
作者
Ivanov, P. A. [1 ,2 ]
Poschinger, U. G. [1 ]
Singer, K. [1 ]
Schmidt-Kaler, F. [1 ]
机构
[1] Johannes Gutenberg Univ Mainz, Inst Phys, D-55099 Mainz, Germany
[2] Univ Sofia, Dept Phys, Sofia 1164, Bulgaria
来源
EPL | 2010年 / 92卷 / 03期
关键词
ENTANGLEMENT; ROBUST;
D O I
10.1209/0295-5075/92/30006
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
We propose a geometric phase gate in a decoherence-free subspace with trapped ions. The quantum information is encoded in the Zeeman sublevels of the ground state and two physical qubits to make up one logical qubit with ultra-long coherence time. Single- and two-qubit operations together with the transport and splitting of linear ion crystals allow for a robust and decoherence-free scalable quantum processor. For the ease of the phase gate realization we employ one Raman laser field on four ions simultaneously, i.e. no tight focus for addressing. The decoherence-free subspace is left neither during gate operations nor during the transport of quantum information. Copyright (C) EPLA, 2010
引用
收藏
页数:6
相关论文
共 50 条
  • [1] Quantum Gate Operations in Decoherence-Free Subspace with Superconducting Charge Qubits inside a Cavity
    Wang Yi-Min
    Zhou Yan-Li
    Liang Lin-Mei
    Li Cheng-Zu
    [J]. CHINESE PHYSICS LETTERS, 2009, 26 (10)
  • [2] Universal quantum computation with electronic qubits in decoherence-free subspace
    Zhang, X. L.
    Feng, M.
    Gao, K. L.
    [J]. QUANTUM INFORMATION & COMPUTATION, 2008, 8 (1-2) : 96 - 105
  • [3] Universal quantum computation with electronic qubits in decoherence-free subspace
    State Key Laboratory of Magnetic Resonance and Atomic and Molecular Physics, Wuhan Institute of Physics and Mathematics, Chinese Academy of Sciences, Wuhan 430071, China
    不详
    不详
    [J]. Quantum Information and Computation, 2008, 8 (1-2): : 0096 - 0105
  • [4] Quantum repeaters based on trapped ions with decoherence-free subspace encoding
    Zwerger, M.
    Lanyon, B. P.
    Northup, T. E.
    Muschik, C. A.
    Duer, W.
    Sangouard, N.
    [J]. QUANTUM SCIENCE AND TECHNOLOGY, 2017, 2 (04):
  • [5] Quantum discord of coupling qubits in decoherence-free subspace and squeezed vacuum reservoir
    Hu, Juju
    Hu, Haijiang
    Ji, Yinghua
    [J]. MATERIAL SCIENCE AND ADVANCED TECHNOLOGIES IN MANUFACTURING, 2014, 852 : 511 - 514
  • [6] Universal quantum computation in a decoherence-free subspace for collective relaxation with transmon qubits
    Zhang, Zu-Rong
    Wu, Chun-Wang
    Li, Chun-Yan
    Dai, Hong-Yi
    Li, Cheng-Zu
    [J]. PHYSICAL REVIEW A, 2013, 87 (06):
  • [7] Quantum phase gate in decoherence-free subspace with cavity QED system
    Song, Wei
    Zou, Ping
    [J]. OPTICS COMMUNICATIONS, 2009, 282 (15) : 3190 - 3193
  • [8] Quantum gate teleportation between separated qubits in a trapped-ion processor
    Wan, Yong
    Kienzler, Daniel
    Erickson, Stephen D.
    Mayer, Karl H.
    Tan, Ting Rei
    Wu, Jenny J.
    Vasconcelos, Hilma M.
    Glancy, Scott
    Knill, Emanuel
    Wineland, David J.
    Wilson, Andrew C.
    Leibfried, Dietrich
    [J]. SCIENCE, 2019, 364 (6443) : 875 - +
  • [9] Quantum gate operations in the decoherence-free subspace of superconducting quantum-interference devices
    Wu, Chunfeng
    Feng, Xun-Li
    Yi, X. X.
    Chen, Isabel Meiqi
    Oh, C. H.
    [J]. PHYSICAL REVIEW A, 2008, 78 (06):
  • [10] Realization of Universal Ion-Trap Quantum Computation with Decoherence-Free Qubits
    Monz, T.
    Kim, K.
    Villar, A. S.
    Schindler, P.
    Chwalla, M.
    Riebe, M.
    Roos, C. F.
    Haeffner, H.
    Haensel, W.
    Hennrich, M.
    Blatt, R.
    [J]. PHYSICAL REVIEW LETTERS, 2009, 103 (20)
12345