[1] VETELINO F S, GRAYSHAN K J, YOUNG C Y et al. A new marine atmospheric spectrum for laser propagation[C](2007).

[2] TOSELLI I. Introducing the concept of anisotropy at different scales for modeling optical turbulence[J]. Journal of the Optical Society of America A: Optics and Image Science, 31, 1868-1875(2014).

[3] CHENG M, GUO L, ZHANG Y. Scintillation and aperture averaging for Gaussian beams through non-Kolmogorov maritime atmospheric turbulence channels[J]. Optics Express, 23, 32606-32621(2015).

[5] GUAN B, YU H, SONG W et al. Wave structure function and long-exposure MTF for Gaussian-beam waves propagating in anisotropic maritime atmospheric turbulence[J]. Applied Surface Science, 10, 5484(2020).

[6] HUANG Yinbo, WANG Yingjian. Numerical analysis of the scaling laws about focused beam spreading induced by the atmosphere[J]. Acta Physica Sinica, 55, 6715-6719(2006).

[7] QIAO Chunhong, FAN Chengyu, WANG Yingjian. Scaling laws about DF high energy laser propagation in real atmosphere[J]. High Power Laser and Particle Beams, 19, 1965-1969(2007).

[8] HUANG Yinbo, WANG Yingjian. The effect of tracking jitter on the beam spreading induced by atmospheric turbulence[J]. Acta Optica Sinica, 25, 152-156(2005).

[9] REN Bin, CHEN Chunyi, YANG Huamin. Survey of studies on numerical simulations of optical-wave propagation in atmospheric turbulence[J]. Journal of System Simulation, 29, 1631-1640(2017).

[10] RAO Ruizhong[M]. Modern atmospheric optics, 481-505(2012).

[11] JOHANSSON E M. Simulation of stellar speckle imaging[J]. Society of Photo-Optical Instrumentation Engineers, 1994, 2200(Amplitude and Intensity Spatial Interferometry II):372(383).

[12] ANDREWS L C. An analytical model for the refractive index power spectrum and its application to optical scintillations in the atmosphere[J]. Journal of Modern Optics, 39, 1849-1853(1992).

[13] STRIBLING B E. Laser beam propagation in non-Kolmogorov atmospheric turbulence[D], 1-89(1994).

[14] LI Yujie, QIAN Xianmei, ZHU Wenyue et al. Numerical analysis of beam spreading of high-power solid laser propagation through non-kolmogorov turbulent atmosphere[J]. Acta Optica Sinica, 38, 0601002(2018).

[15] TOSELLI I. Introducing the concept of anisotropy at different scales for modeling optical turbulence[J]. Journal of the Optical Society of America A: Optics and Image Science, 31, 1868-1875(2014).

[16] WANG Yingjian. Some study on the laser propagation in the atmosphere and its phase compensation[D]. Anhui Institute of Optics and Fine Mechanics(1996).

[17] RAO Ruizhong, LI Yujie. Light propagation through non-Kolmogorov-type atmospheric turbulence and its effects on optical engineering[J]. Acta Optica Sinica, 35, 0501003(2015).

[18] WANG T, PU J X, CHEN Z Y. Beam-spreading and topological charge of vortex beams propagating in a turbulent atmosphere[J]. Optics Communications, 282, 1255-1259(2009).

[19] HUANG Yinbo, WANG Yingjian. Effect of the measurement errors of atmospheric parameters on the laser propagation effects[J]. High Power Laser and Particle Beams, 18, 720-724(2006).

[20] ZHU Wenyue, WANG Huihua, CHEN Xiaowei et al. Uncertainty analysis of evaluation of high power laser propagation in atmosphere[J]. Chinese Journal of Quantum Electronics, 37, 524-533(2020).

[21] ZHANG Biling, XU Yonggen, WANG Xiaoyan et al. Beam wander of hermite gaussian correlated schell-model beam in non-kolmogorov turbulence[J]. Applied Laser, 38, 7(2018).

[22] CUI L Y, XUE B D, ZHOU F. Generalized anisotropic turbulence spectra and applications in the optical waves' propagation through anisotropic turbulence[J]. Optics Express, 23, 30088-30103(2015).

[23] RAO Ruizhong, LI Yujie. Light propagation through non-kolmogorov-type atmospheric turbulence and its effects on optical engineering[J]. Acta Optica Sinica, 35, 26-36(2015).

[24] LI Zhenhan, LI Xinyang. Performance of predictive correction for adaptive optics systems with frozen flow turbulence[J]. Optics and Precision Engineering, 26, 548-555(2018).