[1] Andrews L C, Phillips R L. Laser Beam Propagation Through Random Media[M]. Bellingham, WA: SPIE press, 2005.

[2] Liu Jun, Wu Pengli, Gao Ming. Wander and spreading of polarized and partially coherent laser propagation on slant path in turbulence atmospheric[J]. Chinese J Laser, 2012, 39(10): 1013002.

[3] Yang Ruike, Wu Zhensen, Zhang Peirong. Study of scintillation for infrared laser beam propagating in atmospheric turbulence on Earth-space paths[J]. International Journal of Infrared and Millimeter Waves, 2004, 25(6): 1003-1011.

[4] Yang Ruike, Liu Kexiang, Wu Zhensen, et al.. Scintillation of beam wave propagation along earth-space paths from outer-scale of turbulent atmosphere[J]. Chinese Journal of Radio Science, 2006, 21(6): 899-903.

[5] Wang Rui, Wang Tingfeng, Sun Tao. Simulation model of laser atmospheric transmission characteristics using arbitrary thickness random phase screen[J]. Chinese J Lasers, 2013, 40(8): 0813001.

[6] Huang Yongping, Duan Zhichun, He Yehuan, et al.. Change of turbulence distance for partially coherent flat- topped beams propagating through non-Kolmogorov turbulence[J]. Chinese J Lasers, 2014, 41(9): 0913002.

[7] Andrews L C, Phillips R L. Monostatic lidar in weak-to-strong turbulence[J]. Waves in Random Media, 2001, 11(3): 233-245.

[8] Wei Hongyan. Laser Beam Propagation on the Slant Path Through the Turbulent Atmosphere and the Characteristics of Returned Waves by Targets[D]. Xi′an: Xidian University, 2009.

[9] Liu Xiangyuan, Qian Xianmei, Liu Dandan, et al.. Influencing factors and numerical simulation for the number of return photons from sodium laser beacon[J]. Chinese J Lasers, 2013, 40(6): 0613001.

[10] Gurvich A S, Kulikov V A. Lidar sensing of the turbulence based on the backscattering enhancement effect[C]. SPIE, 2013, 8610: 8610U.

[11] Cheng Ling, Wei Hongyan, Zhang Hongjian, et al.. Scintillation index of echo wave in slant atmosphere turbulence[J]. High Power Laser and Particle Beams, 2013, 25(9): 2262-2266.

[12] Wang Liguo, Wu Zhensen, Wang Mingjun. Numerical research on effect of the size of the target in turbulence on the residual scintillation index[J]. Acta Optica Sinica, 2014, 34(2): 0201003.

[13] Coulman C E, Vernin J, Coqueugniot Y, et al.. Outer scale of turbulence appropriate to modeling refractive-index structure profiles [J]. Applied Optics, 1988, 27(1): 155-160.

[14] ITU-R P. On Propagation Data and Prediction Methods Required for the Design of Space-to-Earth and Earth-to-Space Optical Communication Systems[R]. Budapest: Radio Communication Study Group Meeting, 2001.

[15] Aksenov V P, Banakh V A, Buldakov V M, et al.. Distribution of fluctuations of light intensity behind the objective of a telescope after reflection in a turbulent atmosphere[J]. Soviet Journal of Quantum Electronics, 1985, 15(10): 1404-1406.