Mathematics – Logic
Scientific paper
Jan 2002
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002assl..278...83s&link_type=abstract
Solar System Remote Sensing, p. 83
Mathematics
Logic
Mineralogy, Astronomical Spectroscopy, Radiative Transfer, Absorption Spectra, Planetary Surfaces, Planetary Composition
Scientific paper
Over the last several decades, remote spectroscopic studies have very successfully been used to explore the composition of various solid surfaces in the solar system. Building on these initial successes with mineral identification, recent efforts have focused on more detailed spectral inferences including assessing the composition and abundance of mafic minerals. Such efforts are complicated by the fact that most silicate-rich surfaces include lithologic combinations of several mafic minerals which have overlapping absorption bands. Two of the more quantitative approaches to spectral interpretation are non-linear mixture modeling based on Hapke's radiative transfer theory and absorption band modeling. Both have been used successfully, yet as described below, these two methods are very complimentary offer even greater promise if they can be successfully combined.
Clark Beth Ellen
Lucey Paul G.
Sunshine Jessica M.
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