Other
Scientific paper
Sep 2006
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2006icar..184..121c&link_type=abstract
Icarus, Volume 184, Issue 1, p. 121-157.
Other
57
Scientific paper
A suite of sulfate minerals were characterized spectrally, compositionally, and structurally in order to develop spectral reflectance compositional structural relations for this group of minerals. Sulfates exhibit diverse spectral properties, and absorption-band assignments have been developed for the 0.3 26 μm range. Sulfate absorption features can be related to the presence of transition elements, OH, H2O, and SO4 groups. The number, wavelength position, and intensity of these bands are a function of both composition and structure. Cation substitutions can affect the wavelength positions of all major absorption bands. Hydroxo-bridged Fe3+ results in absorption bands in the 0.43, 0.5, and 0.9 μm regions, while the presence of Fe2+ results in absorption features in the 0.9 1.2 μm interval. Fundamental SO bending and stretching vibration absorption bands occur in the 8 10, 13 18, and 19 24 μm regions (1000 1250, 550 770, and 420 530 cm-1). The most intense combinations and overtones of these fundamentals are found in the 4 5 μm (2000 2500 cm-1) region. Absorption features seen in the 1.7 1.85 μm interval are attributable to HOH/OH bending and translation/rotation combinations, while bands in the 2.1 2.7 μm regions can be attributed to H2O- and OH-combinations as well as overtones of SO bending fundamentals. OH- and H2O-bearing sulfate spectra are fundamentally different from each other at wavelengths below ˜6 μm. Changes in H2O/OH content can shift SO band positions due to change in bond lengths and structural rearrangement. Differences in absorption band wavelength positions enable discrimination of all the sulfate minerals used in this study in a number of wavelength intervals. Of the major absorption band regions, the 4 5 μm region seems best for identifying and discriminating sulfates in the presence of other major rock-forming minerals.
Bell James F.
Blaney Diana L.
Cloutis Edward A.
Craig Michael A.
Hawthorne Frank C.
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