Computer Science
Scientific paper
Aug 2001
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001icar..152..275s&link_type=abstract
Icarus, Volume 152, Issue 2, pp. 275-281 (2001).
Computer Science
7
Scientific paper
Diagrams, color index C(0.95/0.75 μm) versus albedo A(0.75 μm), are used to estimate composition and maturity degree of the lunar regolith. We simulate maturation curves on the diagrams with the model (Shkuratov, Yu. G., L. V. Starukhina, H. Hoffmann, and G. Arnold 1999. Icarus 137, 235-246). In simulation, decrease of characteristic particle size as well as increase of concentration of reduced iron were taken into account. For rather small changes of maturation parameters, almost linear A(0.75 μm)-C(0.95/0.75 μm) maturation trends are found which is in accordance with the method of determination of iron content and maturation degree proposed by Lucey, P. G., D. Blewett, and J. Johnson (1995. Science 268, 1150-1154). With increased changes in maturation parameters, the maturation trends are no longer linear and the branches with the opposite direction of optical maturation are obtained. This is in accordance with spectral measurements of particle size fractions of lunar soils. The maturation trends on A(0.75 μm)-C(0.95/0.75 μm) plots have in general no common origin. In most cases there is an area, where the trends can be focused, but the position of the area differs for different sets of data. Thus, Lucey's assumption about the common origin of maturation trends is valid only as an approximation. Elongated clusters on A(0.75 μm)-C(0.95/0.75 μm) diagram for the lunar nearside (Shkuratov, Yu. G., V. G. Kaydash, and N. V. Opanasenko 1999. Icarus 137, 222-234) can be described by maturation trajectories corresponding to different Fe2+ abundance. The upper edge of the diagram, i.e., the greatest values of C(0.95/0.75 μm), can be determined by the processes of particle size decrease in maturation.
Shkuratov Yu. G.
Starukhina Larissa V.
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