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Optical “Seeing” over Level Terrain

Published online by Cambridge University Press:  25 April 2016

C. E. Coulman*
Affiliation:
Division of Physics, CSIRO, Sydney

Extract

This work is aimed at understanding the phenomena which affect the sharpness and stability of optical images transmitted through the atmosphere. A brief description is given of the results obtained to date from an experimental field-study directed at establishing a connection between optics and meteorology. Most of the work has, so far, been conducted in daytime because our main application is to solar astronomy; other fields such as surveying, aerial reconnaissance and so on can also benefit from basic research in atmospheric optics.

A horizontal line of sight over uniform, level terrain presents the simplest case for study. The optical transfer function (OTF) of the system comprising an air-path and telescope objective has been measured with an image analyser which is a modified form of stellar seeing-monitor. The outputs of this analyser are proportional to the modulus and argument of the OTF. The modulus, or modulation transfer function (MTF), is a measure of image contrast; the fluctuations of the argument measure image movement, or “dancing”. The OTF is a function of spatial frequency f (cycles per unit distance) which may be altered by radial movement of the scanning graticule of the image-analvser.

Type
Contributions
Copyright
Copyright © Astronomical Society of Australia 1967

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References

1 Coulman, C. E., J. Opt. Soc. Amer. 55, 896 (1965).CrossRefGoogle Scholar
2 Coulman, C. E., J. Opt. Soc. Amer. 56, 1232 (1966).Google Scholar
3 Ramsay, J. V., and Kobler, H., Observatory 82, 107 (1962).Google Scholar
4 Tatarski, V. I., Wave Propagation in Turbulent Medium (McGraw-Hill Book Co., New York, 1961).Google Scholar
5 Coulman, C. E., and Hall, D. N. B., Appl. Optics 7 (Jan. 1967).Google Scholar