Computer Science
Scientific paper
Sep 1992
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1992adspr..12....3m&link_type=abstract
Advances in Space Research, Volume 12, Issue 9, p. 3-12.
Computer Science
Scientific paper
Photometric limb to limb profiles of Mars were obtained in 8 narrow bands between 315 and 550 nm from the Phobos-2 spacecraft. Tentative results of analysis are presented in terms of optical properties of the atmosphere and surface. Imaginary part of the refraction index æ from 0.0075 to 0.02 for 315 nm and from 0.005 to 0.01 for 550 nm was estimated for the ``constant'' dust haze, using Mie theory for spherical particles. These values of æ are in a few times higher than obtained by laboratory tests of terrestrial analogues including basalt, andesit and montmorillonite. Two explanations are possible: influence of irregular shape of particles and/or presence of some more absorbing substances ( as goethit ). Particle sizes a few tenths micron having refraction index 1.55 are compatible with the discussed model of the ``constant'' haze. Full shape of the near equatorial photometric profile on 550 nm can be explained by the slightly absorbed atmosphere ( with the optical depth 0.4 and imaginary part of the refraction index 0.0075 ). Icy particles with the same average sizes as in the haze (rm=0.4 microns) but with more narrow size distribution can explaine the bright spot above the Arsia Mons. Optical depth τ =0.1 and column mass density 7.10-5 g cm-2 of the icy clouds were evaluated.
Bibring Jean-Pierre
Combes Michel
Esposito Larry
Ganpantzerova O. F.
Goroshkova N. V.
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