Vol. 2, issue 05, article # 9

pdf Tantashev M. V., Zadorina N. V., Rumyantseva N. A. Scattering function of a point source in the atmosphere. // Atmospheric and oceanic optics. 1989. V. 2. No. 05. P. 410-413.
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Abstract:

The problem of transfer of radiation from an isotropic glowing element of a surface in a spherical atmosphere by the Monte-Carlo method in order to determine the scattering function of a point source which is equivalent to the optical transfer function (OFT) of the atmosphere. Winter and summer models of the atmosphere5 as well as the variant of the Elterman’s model with visibility range. Sm = 15 km were employed in the calculation.
It is shown based on the data obtained that when an object of the order of 600 m in size is observed at the nadir taking the optical transfer function into account can give corrections exceeding 25%. When small (20–100 m in size) objects are observed the atmosphere has the effect of changing the contrast of the object without destroying its spatial structure.

References:

1. N.A. Rumyantseva and M.V. Tantashev, Opt.-Mekh. Prom-st’,No. 9 (1986).
2. V.E. Zuev and M.V. Kabanov, Transfer of Optical Signals in the Earth’s Atmosphere (Sovetskoe Radio, Moscow, 1977).
3. E.P. Zege, et al., Image Transfer in a Scattering Medium (Nauka i Tekhnika Minsk 1985).
4. K.Ya.Kondrat’ev, О.I.Smoktii and V.V. Kozoderov, Influence of the Atmosphere on Exoatmospheric Investigation of Natural Resources (Mashinostroenie, Moscow, 1985).
5. Yu.P. Dyabin, V.P. Ivanov, M.V. Tantashev and V.L. Fillipov, Aerosol and Climate, Vol. 1 (Gidrometeoizdat, Leningrad, 1982).
6. L. Elterman, Atmospheric Attenuation Model 1964 in the Ultraviolet, Visible and Infrared Region for Altitudes to 50km, Report AFCRL-64-740. Environ. Fios. Papers, No. 46, 40 (1964).
7. D. Dermendjian, Scattering of Electromagnetic Radiation by Spherical Polydispersed Particles [Russian translation] (Mir, Moscow, 1971).
8. Monte-Carlo Method in Atmospheric Optics, G.I. Marchuk, [Ed.] (Nauka, Novosibirsk, 1976).
9. Yoram J. Kaufman, Appl. Opt., 23, No. 19 (1983).
10. N.S. Kopetka, S. Solomon and Y. Gencay, J. Opt. Soc. Amer., 11, No. 7 (1981).