Optical effects of space weathering: The role of the finest fraction

Details Optical effects of space weathering: The role of the finest fraction Optical effects of space weathering: The role of the finest fraction

Nov 1993

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1993jgr....9820817p&link_type=abstract

Journal of Geophysical Research (ISSN 0148-0227), vol. 98, no. E11, p. 20,817-20,824

Physics

119

Absorption Spectra, Aggregates, Brightness, Grain Size, Lunar Geology, Lunar Soil, Surface Reactions, Weathering, Breccia, Iron, Minerals, Particle Size Distribution, Reflectance, Spectroscopic Analysis

Scientific paper

The optical properties of lunar soils are different than those of rocks which they are derived. As a consequence of lunar space weathering, soils are darker and exhibit a distinctive red-sloped continuum and weaker mineral absorption bands. The accumulation of dark glass-welded aggregates (agglutinates) has been thought to account for these optical effects of space weathering on lunar soils. Spectroscopic analyses of agglutinate separates and size fractions for a suite of lunar soils presented here indicate that the agglutinate paradigm is insufficient to fully account for lunar optical alteration. It is the finest fraction of lunar soils (less than 25 microns which constitute approximately 25% wt.) that dominates the optical properties of the bulk soil. Unlike size fractions of most silicates for which the finest fraction is the brightest, the lunar soil size fractions all have comparable albedos in the short-wavelength visible. In the near infrared, however, it is the finest fraction that exhibits the steep red continuum and weak absorption bands. The properties of the finest fraction cannot be duplicated by preparing a fine fraction by grinding larger agglutinate-rich soil particles. These results suggest space weathering on airless bodies is dominated by surface correlated processes (perhaps associated with the developement of fine-grained Fe(dot) on or near the surface of grains), and the accumulation of the large agglutinates is not necessarily required to account for lunar optical alteration.

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