Rare gas studies of the galactic cosmic ray irradiation history of lunar rocks

Details Rare gas studies of the galactic cosmic ray irradiation history of lunar rocks Rare gas studies of the galactic cosmic ray irradiation history of lunar rocks

Mar 1972

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1972gecoa..36..269h&link_type=abstract

Geochimica et Cosmochimica Acta, vol. 36, Issue 3, pp.269-301

Computer Science

5

Scientific paper

Eight analyses of all five noble gases in whole rock samples and mineral separates from lunar rocks 10017, 10044 and 10069, in conjunction with available literature data, permit qualitative conclusions concerning average irradiation depths and enable internally consistent exposure ages for Tranquillity Base rocks to be calculated. Correlated variations in He 3 / Ne 21 and Ar 38 / Ne 21 reflect shielding differences. Diffusion losses cannot explain this correlation, even though evidence for gas loss is obtained from mineral separate data. A qualitative shielding sequence can be constructed which agrees reasonably well with the sequence based on Gd isotopic data. There are no systematic differences between meteoritic and lunar He, Ne and Ar spallation spectra, with the possible exception of Ar 38 / Ne 21 . Observed variations in meteoritic and lunar Xe spallation spectra, except at mass 131, are due primarily to differences in chemical composition. The relative Xe 126 production rates from Ba and rare earths can be derived. Resonance neutron capture on Ba 130 is a plausible source for the anomalous Xe 131 observed in lunar rocks; however, the required fluxes are quite large. Surface production rates from measurements of radioactive spallation products in lunar samples give more concordant exposure ages than those obtained from meteoritic production rates. This concordance implies that the average irradiation depths for these rocks were small ( 150 g/cm 2 ). Surface production rates for Xe 126 and Ne 21 yielded exposure ages for fourteen Tranquillity Base rocks which are in reasonable agreement for most rocks. Five low-K rocks have exposure ages around 100 m.y. in what may be a significant grouping. At least four major impacts are required to produce the fourteen rocks.

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