Abstract

Experiments indicate that the variance of irradiance fluctuations of a wave propagating through a turbulent atmosphere saturates with increasing path length or turbulence strength. In addition, many experimental data indicate that the saturation value depends on the path length. In this paper we calculate the variance of the irradiance fluctuations by a method originally proposed by Keller, but we view it in a conceptually different manner. The reason that this method is reconsidered is that it leads to solutions whose validity is essentially independent of distance for the coherent field and average energy flux. Our calculations yield a saturation curve that agrees with the experimental data, with a saturation value that depends on both the wavelength and the length of the propagation path. It also leads to a saturation curve with a pronounced maximum for the case of constant turbulence conditions and variable path length. Finally, the amplitude fluctuations are found to be Rayleigh distributed in the limit of infinite path length.

© 1970 Optical Society of America

Light Propagation through a Turbulent Atmosphere: Measurements of the Optical-Filter Function*

Peter M. Livingston, Paul H. Deitz, and Ernest C. Alcaraz
J. Opt. Soc. Am. 60(7) 925-935 (1970)

Saturation of Irradiance Fluctuations Due to Turbulent Atmosphere

D. A. DeWolf
J. Opt. Soc. Am. 58(4) 461-466 (1968)

Coherence Degradation of Gaussian Beams in a Turbulent Atmosphere

T. L. Ho
J. Opt. Soc. Am. 60(5) 667-673 (1970)

Beam Spread of Laser Light Propagating in a Random Medium*

Alan M. Whitman and Mark J. Beran
J. Opt. Soc. Am. 60(12) 1595-1602 (1970)

Photodetection of Low-Level Radiation through the Turbulent Atmosphere*

Paul Diament and M. C. Teich
J. Opt. Soc. Am. 60(11) 1489-1494 (1970)