[1] Benatti F, Floreanini R. Entangling oscillators through environment noise [J]. J. Phys. A, 2006, 39(11): 2689-2699.
[4] Zhang J, Li C W, Wu R B, et al. Maximal suppression of decoherence in Markovian quantum systems [J]. Phys. A: Math. Gen., 2005, 38: 6587.
[5] Yu T, Eberly J H. Finite-time disentanglement vis spontaneous emission [J]. Phys. Rev. Lett., 2004, 93(14): 140404.
[6] Yu T, Eberly J H. Sudden death of entanglement [J]. Science, 2009, 323(5914): 598-601.
[7] Ji Y H, et al. Entanglement and decoherence of coupled superconductor qubits in a non-Markovian environment [J]. Chin. Phys. B, 2010, 19: 060304.
[8] Le Hur K, Doucet-Beaupre P, Hofstetter W. Entanglement and criticality in quantum impurity systems [J]. Phys. Rev. Lett., 2007, 99(12): 126801.
[9] Ji Y H, Liu Y M, Wang Z S. Avoiding the decay of entanglement for coupling two-qubit system interacting with a non-Markov environment [J]. Chin. Phys. B, 2011, 20: 070304.
[10] Ikram M, Li F L, Zubairy M S. Disentanglement in a two-qubit system subjected to dissipation environments [J]. Phys. Rev. A, 2007, 75(6): 062336.
[11] Cui W, Xi Z R, Pan Y. The entanglement dynamics of bipartite quantum system: Toward entanglement sudden death [J]. Phys. Rev. A, 2008, 77: 032117.
[14] Yu T, Eberly J H. Sudden death of entanglement: Classical noise effects [J]. Phys. Opt. Comm., 2006, 264(2): 393-397.
[15] Villares Ferrer A, Morais Smith C. Dynamical localization of a particle coupled to a two-level system thermal reservoir [J]. Phys. Rev. B, 2007, 76: 214304.