[1] J. Bergou, L. Davidovich, M. Orszag et al.. Role of pumping statistics in meser and laser dynamics: Density-matrix approach. Phys. Rev. (A), 1989, 40(9): 5073～5080

[2] C. Benkert, M. Scully. Polarization correlated-emission laser and the influence of pump statistics. Phys. Rev. (A), 1990, 42(5): 2817～2828

[3] M. O. Scully. Correlated spontaeous-emission lasers: Quenching of quantum fluctuations in the relative phase angle. Phys. Rev. Lett., 1985, 55(25): 2802～2805

[4] M. O. Scully, K. Wodkiewicz, M. S. Zubairy et al.. Two-photon correlated-spontaneous-emission laser: Quantum noise quenching and squeezing. Phys. Rev. Lett., 1988, 60(18): 1832～1835

[5] Hong-Bin Huang. Pump statistics and field squeezing in the extended Jaynes-Cummings model for a many m-photon CEL. Phys. Lett. (A), 1995, 197: 297～304

[6] J. Gea-Banacloche. Squeezing of spontaneous emission in a laser. Phys. Rev. Lett., 1987, 59(5): 543～546

[7] M. O. Scully, G. Sussmann, C. Benkert. Quantum noise reduction via maser memory effects: Theory and application. Phys. Rev. Lett., 1988, 60(11): 1014～1017

[8] L. A. Lugiato, G. Strini. On the squeezing obtainable in parametric Oscillators and bistabe absorption. Opt. Commun., 1982, 41(1): 67～70

[9] L. A. Lugiato, G. Strini. On nonclassical effects in two-photon optical bistability and two-photon laser. Opt. Commun., 1982, 41(5): 374～378

[10] L. A. Lugiato, G. Strini. Fluctuation in multiphoton optical bistability. Opt. Commun., 1982, 41(6): 447～449

[11] F. A. M. de Oliveira, P. L. Knight. Bright squeezing. Phys. Rev. Lett., 1988, 61(7): 830～833

[12] H. M. Gibbs. Optical Bistability: Controlling Lightwith Light. Academic Press, Inc., 1985