Atmospheric rare gases in lunar rock 60015..
Abstract
Aliquots of lunar rock 60015 were subjected to various types of exposure and handling designed to produce terrestrial contamination, in order to test the possibility of a terrestrial origin for the terrestrial-like trapped Xe reported for lunar rock samples. Crushing the rock produced up to order-of-magnitude increases in the abundances of Ar, Kr, and Xe relative to the millimeter-sized chips of 60015 previously analyzed. Contrary to expectations for atmospheric contamination, high temperatures (above 1000 C) were necessary to remove about 75% of the trapped Kr and Xe, and the rare-gas elemental abundance ratios differed from those in terrestrial samples believed to have occluded atmospheric gases. It is concluded, on the basis of similar temperature-release profiles and elemental-fractionation patterns, that the trapped Xe observed in all these 60015 analyses is atmospheric contamination. Such a conclusion cannot unequivocally be drawn for other lunar rocks containing terrestrial-like Xe, but the present results demonstrate that arguments based on high extraction temperatures and elemental abundance ratios cannot be useful to rule out rare-gas atmospheric contamination in such samples.
- Publication:
-
Lunar and Planetary Science Conference Proceedings
- Pub Date:
- April 1976
- Bibcode:
- 1976LPSC....7..587N
- Keywords:
-
- Abundance;
- Gas Analysis;
- Krypton Isotopes;
- Lunar Rocks;
- Rare Gases;
- Xenon Isotopes;
- Argon Isotopes;
- Fractionation;
- High Temperature;
- Neon Isotopes;
- Tables (Data);
- Lunar and Planetary Exploration