Publication | Closed Access
Statistics of a Geometric Representation of Wavefront Distortion
758
Citations
1
References
1965
Year
Geometric ModelingAtmospheric TurbulencePrecise Statistical DefinitionImage FormationEngineeringWave OpticOptical PropertiesGeometrical OpticOptical System DesignInverse ProblemsGeometrical AberrationOptical SystemsWavefront DistortionOptical System Analysis
Atmospheric turbulence primarily causes random tilting of plane‑wave fronts, which dominates wavefront distortion. The study defines a precise statistical description of the geometric shape of randomly distorted wavefronts. The authors derive relationships between the phase‑structure function and the shape statistics, and outline a method to compute the influence of wavefront distortion on optical systems. They estimate how wave‑front distortion degrades photographic resolution and optical heterodyne efficiency.
A precise statistical definition is established for the geometric “shape” of a randomly distorted wavefront. Relationships between the phase-structure function and the statistics governing the shape are derived. The most significant portion of wavefront distortion caused by atmospheric turbulence is a random tilting of the plane-wave front. A procedure is outlined for calculating the influence of wavefront distortion on optical systems. Estimates are formed of the effect of wave-front distortion on photographic resolution and optical heterodyne efficiency.
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