[1] Kippenberg T J, Vahala K J. Cavity optomechanics: Back-action at the mesoscale [J]. Science , 2008, 321(5893): 1172-1176.

[2] Groeblacher S, Hammerer K, Vanner MR, et al . Observation of strong coupling between a micromechanical resonator and an optical cavity field [J]. Nature , 2009, 460(7256): 724-727.

[3] Teufel J D, Li D, Allman M S, et al . Circuit cavity electromechanics in the strong-coupling regime [J]. Nature , 2011, 471(7337): 204-208.

[5] Xiao Y, Yu Y F, Zhang Z M. Controllable optomechanically induced transparency and ponderomotive squeezing in an optomechanical system assisted by an atomic ensemble [J]. Optics Express , 2014, 22(15): 17979-17989.

[6] Aspelmeyer M, Kippenberg T J, Marquardt F. Cavity optomechanics [J]. Reviews of Modern Physics , 2014, 8(4): 1391-1452.

[7] Breuer H P, Petruccione F. The Theory of Open Quantum Systems [M]. Oxford: Oxford University Press, 2002.

[8] Nunnenkamp A, Borkje K, Girvin S M. Single-photon optomechanics [J]. Physical Review Letters , 2011, 107(6): 063602.

[9] Hu D, Huang S Y, Liao J Q, et al . Quantum coherence in ultrastrong optomechanics [J]. Physical Review A , 2015, 91(1): 013812.

[10] Scala M, Militello B, Messina A, et al . Microscopic derivation of the Jaynes-Cummings model with cavity losses [J]. Physical Review A , 2007, 75(1): 013811.

[11] Yu S M, Gao Y B, Ian H. Perturbative dissipation dynamics of a weakly driven cavity QED system: Generalized microscopic master equation [J]. Quantum Information Processing , 2017, 1(11): 283.

[12] Briegel H, Englert B. Quantum optical master equations: The use of damping bases [J]. Physical Review A , 1993, 47(4): 3311-3329.

[13] Johansson J R, Nation P D, Nori F. QuTiP: An open-source Python framework for the dynamics of open quantum systems [J]. Computer Physics Communications , 2012, 183(8): 1760-1772.