摘要We propose an alternative scheme for preparing N-qubit cluster state by using a frequency-modulated laser field to simultaneously illuminate the trapped ions. Selecting the index of modulation yields the selective mechanisms of coupling and decoupling between the internal and external states of the ions. Based on the selective mechanisms, the highly entangled cluster state is achieved. In our scheme, the vibration mode is only virtually excited. Thus the quantum operations are insensitive to the heating and lead to the high-fidelity quantum information processing.
Abstract:We propose an alternative scheme for preparing N-qubit cluster state by using a frequency-modulated laser field to simultaneously illuminate the trapped ions. Selecting the index of modulation yields the selective mechanisms of coupling and decoupling between the internal and external states of the ions. Based on the selective mechanisms, the highly entangled cluster state is achieved. In our scheme, the vibration mode is only virtually excited. Thus the quantum operations are insensitive to the heating and lead to the high-fidelity quantum information processing.
CHENG Guang-Ling;HU Xiang-Ming. Scalable Generation of Cluster State for Multiple Hot Trapped Ions[J]. 中国物理快报, 2008, 25(4): 1198-1201.
CHENG Guang-Ling, HU Xiang-Ming. Scalable Generation of Cluster State for Multiple Hot Trapped Ions. Chin. Phys. Lett., 2008, 25(4): 1198-1201.
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