Computer Science
Scientific paper
Mar 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997lpi....28.1109p&link_type=abstract
Conference Paper, 28th Annual Lunar and Planetary Science Conference, p. 109.
Computer Science
Lunar Soil, Infrared Spectra, Lunar Surface, Solar Wind, Hydrogen Ions, Silicates, Lunar Composition, Regolith, Nasa Space Programs
Scientific paper
The surface of the moon is continuously exposed to solar wind ions impacting at velocities varying between 300 and 700 km/s. Silicate minerals on the lunar surface therefore undergo ion-sputtering and ion-implantation at relatively low energies. As a result, very volatile elements such as H, He, C, N, and noble gases, that are extremely depleted on the moon, are found in grains of lunar soils which have been directly exposed to the solar wind. Nuth et al. (1992) suggested that solar wind implantation of hydrogen on the lunar surface could lead to a measurable spectral IR feature between 4.4 and 4.7 mm in both laboratory and telescopic spectra of lunar regolith due to -SiH functional groups. If true, this could lead to an innovative and powerful tool for remote sensing studies of the moon and asteroids for determining volatile implantation and regolith maturity. To test the hypothesis of Nuth et al. we measured the IR spectrum of six lunar soils, without finding any evidence of a feature in the region of interest.
Pierazzo Elisabetta
Singer Robert B.
Sperline Roger P.
Swindle Timothy D.
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