[1] NIELSEN M A, CHUANG I L. Quantum computation and information［M］. Cambridge: Cambridge University Press, 2000.

[2] TURCHETTE Q A, WOOD C S, KING B E, et al. Deterministic entanglement of two trapped ions［J］. Physical Review Letters, 1998, 81(17): 3631-3634.

[3] JULSGAARD B, KOZHEKIN A, POLZIK E S. Experimental long-lived entanglement of two macroscopic objects［J］. Nature, 2001, 413(6854): 400-403.

[4] ASPECT A, GRANGIER P, ROGER G. Experimental tests of realistic local theories via bell's theorem［J］. Physical Review Letters, 1981, 47(7): 460-463.

[5] STEFFEN M, ANSMANN M, RADOSLAW C, et al. Measurement of the entanglement of two superconducting qubits via state tomography［J］. Science, 2006, 313(5792): 1423-1425.

[6] BOSE S, FUENTES-GURIDI I, KNIGHT P L, et al. Subsystem purity as an enforcer of entanglement［J］. Physical Review Letters, 2001, 87(5): 050401-1-4.

[7] KIM M S, LEE J, AHN D, et al. Entanglement induced by a single-mode heat environment［J］. Physical Review A, 2002, 65(4): 040101-1-4.

[8] ZHOU L, SONG H S, LI C. Entanglement induced by a single-mode thermal field and the criteria for entanglement［J］. J Opt, B: Quant Semiclass Opt, 2002, 4(6): 425-429.

[9] FICEK Z, TANAS R. Delayed sudden birth of entanglement［J］. Physical Review A, 2008, 77(5): 054301-1-4.

[10] XIA Jian-ping, REN Xue-zao, CONG Hong-lu, et al. Quantum entanglement of the coherent state field interacting with a Λ type three-level atom without rotating wave approximation［J］. Acta Photonica Sinica, 2010, 39(9): 1621-1626.

[11] JIANG Dao-lai, REN Xue-zao, CONG Hong-lu, et al. Entanglement properties of two entangled atoms without rotating wave approximation［J］. Acta Photonica Sinica, 2010, 39(9): 1636-1640.

[12] ZHANG Li-hui, LI Gao-xiang. Entanglement properties of two-atoms interacting with field in dissipative cavity［J］. Acta Photonica Sinica, 2011, 40(4): 607-612.

[13] GERRY C C, GHOSH H. Squeezing enhancement in the Jaynes-Cummings model via selective atomic measurements ［J］. Physics Letters A, 1997, 229(1): 17-22.

[14] YANG Chui-ping, GUO Guang-can. Controllable emission properties of an atom inside a cavity by manipulating the atom outside the cavity［J］. Physics Letters A, 1999, 255(3): 129-132.

[15] ZHOU Yuan, ZHANG Ying-jie, XIA Yun-jie. Remote control of quantum statistical properties of light field［J］. Acta Optica Sinica, 2007, 27(6): 1122-1128.

[16] LU Dao-ming. Remote control entanglement properties of two-atom inside cavities［J］. Acta Photonica Sinica, 2010, 39(11): 2088-2092.

[17] MOYA-CESSA H, KNIGHT P L, ROSENHOUSE-DANTSKER A. Photon amplification in a two-photon lossless micromaser［J］. Physical Review A, 1994, 50(2): 1814-1821.

[18] GARRAWAY B M, SHERMAN B, MOYA-CESSA H, et al. Generation and detection of nonclassical field states by conditional measurements following two-photon resonant interactions［J］. Physical Review A, 1994, 49(1): 535-547.

[19] WOOTTERS W K. Entanglement of formation of an arbitrary state of two qubits［J］. Physical Review Letters, 1998, 80(10): 2245-2248.

[20] YU T, EBERLY J H. Evolution from entanglement to decoherence of bipartite mixed “X” states［J］. Quantum Information and Computation, 2007, 7(5-6): 459-468.

[21] EL-ORANY F A A. Relationship between the linear entropy, the von Neumann entropy and the atomic Wehrl entropy for the Jaynes-Cummings model. 2007, Preprint quant-ph/07054373.

[22] MUNRO W J, JAMES D F V, WHITE A G, et al. Maximizing the entanglement of two mixed qubits［J］. Physical Review A, 2001, 64(3): 030302-1-4.

[23] BERRY D W, SANDERS B C. Bounds on general entropy measures［J］. Journal of Physics A: Mathematical and General, 2003, 36(49): 12255-12265.

[24] YU T, EBERLY J H. Finite-time disentanglement via spontaneous emission［J］. Physical Review Letters, 2004, 93(14): 140404-1-4.