量子电子学报, 2017, 34 (5): 616, 网络出版: 2017-10-30  

驻波场中囚禁离子的Wigner-Yanase偏态信息

Wigner-Yanase skew information of trapped ions in a standing-wave field
作者单位
江苏科技大学应用物理系, 江苏 镇江 212003
摘要
研究了驻波场中囚禁离子的Wigner-Yanase偏态信息并得到了其恢复周期,发现此周期与离子布居数反转的恢复时间相同。对解析解与数值模拟进行分析,发现 Wigner-Yanase偏态信息的恢复时间随Lamb-Dicke参数的增大而减小,随离子平均振动声子数的增大而增大;当离子质心从驻波场波节移向波腹时, Wigner-Yanase偏态 信息的恢复时间变长。从理论上证明了囚禁离子振动态处于相干态时离子初始偏态信息恒为1/2,分析了离子与驻波激光场之间的量子纠缠特性。
Abstract
The Wigner-Yanase skew information of trapped ions in a standing-wave field is investigated and the revival period is also obtained. It’s found that the period is the same as revival time of ion population inversion. The analytical solution and numerical simulation are analyzed. The revival period of Wigner-Yanase skew information is found to decrease with the increasing of Lamb-Dicke parameter, and increase with the increasing of ion mean vibration phonon number. The revival time will be longer when the ion mass center is moved from wave node to anti-node. It is theoretically proved that the initial state information of the ions is always 1/2 when vibration state of trapped ions is in coherent state. The characteristics of quantum entanglement between the ion and standing wave laser field are analyzed.

白志达, 叶芳, 周青春. 驻波场中囚禁离子的Wigner-Yanase偏态信息[J]. 量子电子学报, 2017, 34(5): 616. BAI Zhida, YE Fang, ZHOU Qingchun. Wigner-Yanase skew information of trapped ions in a standing-wave field[J]. Chinese Journal of Quantum Electronics, 2017, 34(5): 616.

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