Computer Science
Scientific paper
Jun 1983
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1983metic..18..123m&link_type=abstract
Meteoritics (ISSN 0026-1114), vol. 18, June 30, 1983, p. 123-136. Research supported by the Indian Space Research Organization.
Computer Science
3
Achondrites, Lithium, Meteoritic Composition, Neutron Activation Analysis, Stony Meteorites, Abundance, Cosmochemistry, Meteorites, Stony Meteorites, Lithium, Stony Iron Meteorites, Catalog, Neutron Activation Analysis, Analysis, C Chondrites, H Chondrites, L Chondrites, Ll Chondrites, E Chondrites, E Chondrites, Achondirtes, Calcium, Mesosiderites, Pallasites, Aluminum, Magnesium, Concentration, Magnetic Properties, Chondrules, Cosmochemistry
Scientific paper
Lithium contents have been determined by neutron activation analysis in 54 meteorites distributed as: C(9), H(13), L(10), LL(3), E(2), achondrites (11), and stony irons (6). Among the undifferentiated meterorites Li contents range from 1 to 3 ppm. Li contents are higher in Ca-rich achondrites and mesosiderites than in Ca-poor achondrites and pallasites respectively. Among achondrites, Li correlates positively with Ca and Al and inversely with Mg. A minor Li-rich phase might be associated with the plagioclase component of achondrites. In several meteorites Li concentration is determined in magnetic and nonmagnetic fractions, chondrules, and light and dark components (for the gas-rich meteorites).
Goel Parmatma S.
Murty Sripada V. S.
Shukla P. N.
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