Physics
Scientific paper
Sep 1992
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1992ntlr.work...39m&link_type=abstract
In Lunar and Planetary Inst., Joint Workshop on New Technologies for Lunar Resource Assessment p 39-40 (SEE N93-17233 05-91)
Physics
Ferromagnetic Resonance, Gamma Ray Spectrometers, Ilmenite, Lunar Resources, Mineralogy, Mossbauer Effect, Grain Size, Helium Isotopes, Iron, Lunar Geology, Lunar Soil, Lunar Surface
Scientific paper
First-order assessment of lunar soil as a resource includes measurement of its mineralogy and maturity. Soils in which the mineral ilmenite is present in high concentrations are desirable feedstock for the production of oxygen at a lunar base. The maturity of lunar soils is a measure of their relative residence time in the upper 1 mm of the lunar surface. Increasing maturity implies increasing load of solar wind species (e.g., N, H, and He-3), decreasing mean grain size, and increasing glass content. All these physicochemical properties that vary in a regular way with maturity are important parameters for assessing lunar soil as a resource. For example, He-3 can be extracted and potentially used for nuclear fusion. A commonly used index for lunar soil maturity is Is/FeO, which is the concentration of fine-grained metal determined by ferromagnetic resonance (Is) normalized to the total iron content (as FeO). Is/FeO has been measured for virtually every soil returned by the Apollo and Luna missions to the Moon. Because the technique is sensitive to both oxidation state and mineralogy, iron Moessbauer spectroscopy (FeMS) is a viable technique for in situ lunar resource assessment. Its utility for mineralogy is apparent from examination of published FeMS data for lunar samples. From the data published, it can be inferred that FeMS data can also be used to determine soil maturity. The use of FeMS to determine mineralogy and maturity and progress on development of a FeMS instrument for lunar surface use are discussed.
Agresti David G.
Gibson Michael A.
Morris Richard V.
Pimperl Marsha M.
Shelfer Tad D.
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