[1] James H Churnside. Aperture averaging of optical scintillations in the turbulent atmosphere [J]. Appl.Opt(S0003-6935),1991, 30(15):1982-1994.
[4] Andrews L C,Phillips R L,Hopen C Y. Aperture averaging of optical scintillations:power fluctuaions and the temporal spectrum [J]. Waves Random Media(S0959-7174),2000,10(1):53-70.
[5] Dashe Li. Research on Modeling Multi-Beam Transmission Channel under the Atmospheric Turbulence [J]. Journal of Convergence Information Technology(S1975-9320),2011,6(2):183-190.
[6] Shane M Haas,Jeffrey H Shapiro,Vahid Tarokh. Space-Time Codes for Wireless Optical Communications [J]. EURASIP Journal on Applied Signal Processing(S1687-6172),2002,3:211-220.
[7] Minch J R,Gervais DR,Townsend D J. Adaptive Transceivers for Mobile Free-Space Optical Communications [C]//IEEE Military Communications Conference,Washington DC, United State,October 25,2006:1-5.
[8] Heba Yuksel,Stuart Milner,Christopher Davis. Aperture averaging for optimizing receiver design and system performance on free-space optical communication links [J]. J. Opt. Netw(S1536-5379),2005,4:462-475.
[9] Frida Str.mqvist Vetelino,Cynthia Young,Larry Andrews. Fade statistics and aperture averaging for Gaussian beam waves in moderate-to-strong turbulence [J]. Appl. Opt(S0003-6935),2007,46:3780-3789.
[11] Tyson R K. Bit-error rate for free-space adaptive optics laser communications [J]. J. Opt. Soc. Am. A (S1520-8532),2002,19: 753-758.
[13] Dashen R. Path Integrals for wave in Random Media [J]. Math. Phys(S0022-2488),1979,20(5):894-920.
[14] Andrews L C,Phillips R L. I-K distribution as a universal propagation model of laser beams in atmospheric turbulence [J]. Opt. Soc. Am(S0740-3224),1985,89(2):160-163.
[16] Andrew L C,Halash M A,Hopen C Y. Theory of optical scin-tillation:Gaussian-beam wave model [J]. Wave Random Media(S0959-7174),2001,11(2):271-291.