Importance of space weathering simulation products in compositional modeling of asteroids: 349 Dembowska and 446 Aeternitas as examples

Details Importance of space weathering simulation products in compositional modeling of asteroids: 349 Dembowska and 446 Aeternitas as examples Importance of space weathering simulation products in compositional modeling of asteroids: 349 Dembowska and 446 Aeternitas as examples

Dec 2001

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2001m%26ps...36.1587h&link_type=abstract

Meteoritics & Planetary Science, vol. 36, no. 12, pp. 1587-1596 (2001).

Mathematics

Logic

46

Scientific paper

Based on recent progress in simulating space weathering on asteroids using pulse-laser irradiation onto olivine and orthopyroxene samples, detailed analyses of two of the A and R type asteroid reflectance spectra have been performed using reflectance spectra of laser-treated samples. The visible-near-infrared spectrum of olivine is more altered than that of pyroxene at the same pulse-laser energy, suggesting that olivine weathers more rapidly than orthopyroxene in space. The same trend can be detected from reflectance spectra of the asteroids, where the more olivine an asteroid has, the redder its 1 um band continuum can become. Comparison of the 1 um band continuum slope and the 2/1 um band area ratio between the asteroids and olivine and pyroxene samples (including the laser-treated ones) suggests that asteroids may be limited in the degree of space weathering they can exhibit, possibly due to the short life of their surface regolith. Their pyroxenes may also have a limited chemical composition range. Fitting the visible continuum shape and other parts of the spectra (especially the 2 um part) has been impossible with any combination of common rock-forming minerals such as silicates and metallic irons. However, this study shows, for the first time, excellent fits of reflectance spectra of an A asteroid (Aeternitas) and an R asteroid (Dembowska), including their visible spectral curves, band depths and shapes, and overall continuum shapes. Our results provide estimates that Aeternitas consists of 2% fresh olivine, 93% space-weathered olivine, 1% space-weathered orthopyroxene, and 4% chromite, and that Dembowska consists of 1% fresh olivine, 55% space-weathered olivine, and 44% space-weathered orthopyroxene. These results suggest that space weathering effects may be important to the interpretation of asteroid reflectance spectra, even those with deep silicate absorption bands. Modified Gaussian model deconvolutions of the laser-irradiated olivine samples show that their identity as olivine remained. The most recent submicroscopic mineralogical analyses have revealed that the laser-irradiated olivine samples contain nanophase iron particles similar to those in space-weathered lunar samples.

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