[1] Nielsen M A, Chuang I L. Quantum Computation and Quantum Information[M]. Cambridge: Cambridge University Press, 2002: 1-70.
[2] Wang Zhongjie, Ruan Fei, Fang Xu. Teleportation for atomic state based on disentanglement-free state[J]. Acta Optica Sinica, 2015, 35(3): 0327001.
[4] Guo Zhanying, Zhang Xinhai, Xiao Ruihua, et al.. Dynamics of quantum entanglement in a two-qubit XXZ Heisenberg system[J]. Acta Optica Sinica, 2014, 34(7): 0727001.
[5] Breuer H P, Petruccione F. The Theory of Open Quantum Systems[M]. Oxford: Oxford University Press, 2007: 320-438.
[6] Wang Chengzhi, Yu Xiaoqin, Li Chunxian, et al.. Entanglement between two atoms mediated by two dissipative optical cavities[J]. Acta Optica Sinica, 2013, 33(s2): s227001.
[8] Lu Daoming. Quantum discord in the system of two two-level atoms interacting with few-photon superposition states cavity[J]. Laser & Optoelectronics Progress, 2015, 52(2): 022701.
[9] Yu T, Eberly J H. Phonon decoherence of quantum entanglement: robust and fragile states[J]. Phys Rev B, 2002, 66(19): 193306.
[10] Yu T, Eberly J H. Qubit disentanglement and decoherence via dephasing[J]. Phys Rev B, 2003, 68(16): 165322.
[11] Yu T, Eberly J H. Anomalous specific-heat jump in a two-component ultracold fermi Gas[J]. Phys Rev Lett, 2006, 97(14): 140404.
[12] Yu T, Eberly J H. Quantum open system theory: bipartite aspects[J]. Phys Rev Lett, 2006, 97(14): 140403.
[13] Sun Z, Wang X, Sun C P. Disentanglement in a quantum-critical environment[J]. Phys Rev A, 2007, 75(6): 062312.
[14] Feng Chuan, Sachuerfu, Li Hongxing. Entanglement of an atom interacting with Glauber-Lachs state in multiphoton Jaynes-Cummings model[J]. Acta Optica Sinica, 2013, 33(5): 0527001.
[15] Ann K, Jaeger G. Local-dephasing-induced entanglement sudden death in two-component finite-dimensional systems [J]. Phys Rev A, 2007, 76(4): 044101.
[16] Ann K, Jaeger G. Disentanglement and decoherence in two-spin and three-spin systems under dephasing[J]. Phys Rev B, 2007, 75(11): 115307.
[17] Salles A, Melo F, Almeida M P, et al.. Experimental investigation of the dynamics of entanglement: sudden death, complementarity, and continuous monitoring of the environment[J]. Phys Rev A, 78(2): 022322.
[18] Laurat J, Choi K S, Kimble H J, et al.. Heralded entanglement between atomic ensembles: preparation, decoherence, and scaling[J]. Phys Rev L, 2007, 99(18): 180504.
[19] Lopez C E, Romero G, Lastra F, et al.. Sudden birth versus sudden death of entanglement in multipartite systems[J]. Phys Rev L, 2008, 101(8): 080503.
[20] Horodecki M, Horodecki P, Horodecki R, et al.. Mixed-state entanglement and distillation: is there a“Bound” entanglement in nature[J]. Phys Rev L, 1998, 80(24): 5239-5242.
[21] Song Wei, Chen Lin, Zhu Shiliang. Sudden death of distillability in qutrit-qutrit systems[J]. Phys Rev A, 2009, 80(1): 012331.
[22] Toth G, Knapp C, Guhne O, et al.. Optimal spin squeezing inequalities detect bound entanglement in spin models[J]. Phys Rev L, 2007, 99(25): 250405.
[23] Horodecki P, Horodecki M, Horodecki R. Bound entanglement can be activated[J]. Phys Rev Lett, 1999, 82(5): 1056-1059.
[24] Dong Y, Horodecki M, Horodecki R, et al.. Irreversibility for all bound entangled states[J]. Phys Rev L, 2005, 95(19): 190501.
[25] Mazhar A. Distillability sudden death in qutrit-qutrit systems under Global and multilocal dephasing[J]. Phys Rev A, 2010, 81(4): 042303.
[26] Mazhar A. Distillability sudden death in qutrit-qutrit systems under amplitude damping[J]. J Phys B, 2010, 43(4): 045504.
[27] Mazhar A. Comments on“Distillability sudden death in qutrit– qutrit systems under thermal reservoirs”[J]. Chin Phys B, 2014, 23(9): 090306.
[29] Xiao Yuchen. Realignment entanglement criterion of phase damped Gaussian states[J]. Quant Inf Pro, 2013, 12(12): 3665-3674.
[30] Vidal G and Werner R F. Computable measure of entanglement[J]. Phys Rev A, 2002, 65(3): 032314.
[31] Cheng Wei, Xu Fang, Li Hua. Entanglement and distillability in qutrit-qutrit systems by convex linear combination[J]. Int J Theor Phys, 2013, 52(4): 1061-1074.