[1] Fazhi Wang, Wenhe Du, Qi Yuan, et al. Wander of a Gaussia-beam wave propagating through kolmogorov and non-kolmogorov turbulence along laser-satellite communication uplink. Atmosphere, 13(2022).

[2] L C Andrews, R L Phillips, C Y Hopen. Scintillation model for a satellite communication link at large zenith angles. Optical Engineering, 39, 3272-3280(2000).

[3] Hongxing Wang, Bo Song, Xiaojun Wu, . Influence of pointing error on bit error rate of free space optics system at sea. Acta Optica Sinica, 36, 0901001-18(2016).

[4] Wenhe Du, Zhanyu Yang, Zhan Jin, et al. Outer-scale effect of a gaussian-beam wave propagated through non-Kolmogorov turbulent atmosphere on the beam wander. Journal of Russian Laser Research, 41, 278-284(2020).

[5] Xifeng Xiao, D G Voelz. Beam wander analysis for focused partially coherent beams propagating in turbulence. Optical Engineering, 51(2012).

[6] Xizheng Ke, Meimiao Han, Mingjun Wang. Spreading and wander of partially coherent beam propagating along a horizontal-path in the atmospheric turbulence. Acta Optica Sinica, 34, 1106003-82(2014).

[7] Chong Gao, Siyuan Yu, Jing Ma, . Beam wander in moderate to strong turbulence. High Power Laser and Particle Beams, 1597-1601(2006).

[8] T Chiba. Spot dancing of laser beam propagated through turbulent atmosphere. Appl Optics, 10, 2456(1971).

[9] Ruizhong Rao, Shipeng Wang, Xiaochun Liu, . Experimental study of spot danceing of laser beam in a turbulence atmosphere. Chinese Journal of Lasers, 27, 1011-1015(2000).

[10] Xiaoshan Ma, Wenyue Zhu, Ruizhong Rao. Anisotropy of beam wander of focused beam in atmospheric boundary layer above sea level. High Power Laser and Particle Beams, 18, 922-926(2006).

[11] M V Artem, A V Mikhail, A F Grigorii, et al. Atmospheric turbulence study with deep machine learning of intensity scintillation patterns. Applied Sciences Basel, 10(2020).

[12] rews L C , Phillips R L. Laser Beam Propagation through Rom Media[M]. 2nd ed. Belling: SPIE Press, 2005.

[13] W Thomas, V Mikhail, M Joseph, et al. Deep turbulence effects mitigation with coherent combining of 21 laser beams over 7 km. Opt Lett, 41, 840-843(2016).

[14] Jiali Wu, Xizheng Ke, Xiaorong Feng. Measurement of transverse wind speed in atmospheric turbulence by cross-correlation algorithm. Optical Engineering, 61(2022).

[15] Perlot N, Giggenbach D, Henniger H, et al. Measurements of the beamwave fluctuations over a 142 km atmospheric path[C]Freespace Laser Communications VI, 2006, 6304: 448457.

[16] Jiayi Yu, Xinlei Zhu, Fei Wang, et al. Experimental study of reducing beam wander by modulating the coherence structure of structured light beams. Opt Lett, 44, 4371-4374(2019).

[17] Yanling Li, Haiping Mei, Yichong Ren, . Simulation of spatial coherence of laser echo light field from random rough surface in turbulent atmosphere. Acta Physica Sinica, 71, 140201-20(2022).

[18] P A Konyaev, N N Botygina, L V Antoshkin, et al. Passive optical methods in measurement of the structure parameter of the air refractive index. Atmospheric and Oceanic Optics, 28, 522-525(2015).

[19] Yuru Wang, Haiping Mei, Li Kang, . Experimental investigation on retro-reflective laser imaging in turbulence atmosphere. Chinese Journal of Lasers, 45, 0401008-82(2018).

[20] Haiping Mei, Hao Ye, Li Kang, et al. Principle and feasibility of using a 3M reflective film based fold pass laser speckle imaging system for measuring atmospheric optical turbulence. OSA Continuum, 2, 1938-1952(2019).

[21] Junxin Zhang, Haiping Mei, Yichong Ren, . Fold path atmospheric coherence length measurement by laser active illumination imaging. Acta Optica Sinica, 43, 1201003-44(2023).

[22] Lukin V P. Outer scale of atmospheric turbulence[C]Optics in Atmospheric Propagation Adaptive Systems VIII, 2005, 5981: 598101.

[23] Damian Gulich, Gustavo Funes, Luciano Zunino, et al. Angle-of-arrival variance's dependence on the aperture size for indoor convective turbulence. Opt Commun, 277, 241-246(2007).