[1] Bennett C H, Wiesner S J. Communication via one- and two-particle operators on Einstein-Podosky-Rosen states［J］. Physical Review Letters, 1992, 69(20): 2881-2884.

[2] Bennett C H, Brassard G, Crepaeu C, et al. Teleporting an unknown quantum state via dual classical and Einstein-Podosky-Rosen channels［J］. Physical Review Letters, 1993, 70(13): 1895-1899.

[3] Abdi M, Pirandola S, Tombesi P, et al. Entanglement swapping with local certification: Application to remote micromechanical resonators［J］. Physical Review Letters, 2012, 109(14): 143601.

[4] Liu T K, Zhang K L, Tao Y, et al. Entanglement properties between two atoms in the binomial optical field interacting with two entangled atoms［J］. Chinese Physics B, 2016, 25(7): 070304.

[5] Wu C, Fang M F. The entanglement of two moving atoms interacting with a single-mode field via a three-photon process［J］. Chinese Physics B, 2010, 19(2): 020309.

[6] Kim K I, Li H M, Zhao B K. Genuine tripartite entanglement dynamics and transfer in a triple Jaynes-Cummings model［J］. International Journal of Theoretical Physics, 2016, 55(1): 241-254.

[7] 杨秀丽, 孙 童, 张 博, 等. 经典场辅助下的三原子量子纠缠动力学［J］. 光学学报, 2016, 36(12): 1227001.

    Yang Xiuli, Sun Tong, Zhang Bo, et al. Classical-field-assisted three-atom quantum entanglement dynamics［J］. Acta Optica Sinica, 2016, 36(12): 1227001.

[8] Pellizzari T. Quantum networking with optical fibres［J］. Physical Review Letters, 1997, 79(26): 5242.

[9] Zheng S B, Yang Z B, Xia Y. Generation of two-mode squeezed states for two separated atomic ensembles via coupled cavities［J］. Physical Review A, 2010, 81(1): 015804.

[10] Peng P, Li F L. Entanglement two atoms in spatially separated cavities through both photon emission and absorption processes［J］. Physical Review A, 2007, 75(6): 062320.

[11] Zheng B, Shen L T, Chen M F. Entanglement and quantum state transfer between two atoms trapped in two indirectly coupled cavities［J］. Quantum Information Process, 2016, 15: 2181-2191.

[12] Huang X B, Zhong Z R, Chen Y H. Deterministic generation of a four-atom entangled state in a two-dimensional coupled-cavity system［J］. International Journal of Theoretical Physics, 2016, 55(2): 1192-1200.

[13] Ogden C D, Irish E K, Kim M S. Dynamics in a coupled-cavity array［J］. Physical Review A, 2008, 78(6): 063805.

[14] Ye S Y, Zhong Z R, Zheng S B. Deterministic generation of three-dimensional entanglement for two atoms separately trapped in two optical cavities［J］. Physical Review A, 2008, 77(1): 014303.

[15] Wu H Z, Yang Z B, Zheng S B. Two-photon absorption and emission by Rydberg atoms in coupled cavities［J］. Physical Review A, 2013, 88(4): 043816.

[16] Peng J, Wu Y W, Li X J. Quantum dynamic behaviour in a coupled cavities system［J］. Chinese Physics B, 2012, 21(6): 060302.

[17] 邱昌东, 卢道明. 两维耦合腔系统中的纠缠特性［J］. 光学学报, 2016, 36(5): 0527001.

    Qiu Changdong, Lu Daoming. Entanglement characteristics in two-dimensional coupled cavity systems［J］. Acta Optica Sinica, 2016, 36(5): 0527001.

[18] Zheng S B. Jaynes-Cummings model with a collective atomic mode［J］. Physical Review A, 2008, 77(4): 045802.

[19] Han C, Xue P, Guo G C. Multipartite entanglement preparation and quantum communication with atomic ensembles［J］. Physical Review A, 2005, 72(3): 034301.

[20] Duan L M. Entangling many atomic ensembles through laser manipulation［J］. Physical Review Letters, 2002, 88(17): 170402.

[21] Akhtarshenas S J, Farsi M. Negativity as entanglement degree of the Jaynes-Cummings model［J］. Physica Scripta, 2007, 75(5): 608-614.