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Solar wind-implanted water in Apollo 11 lunar soils and its implications

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ã€Authorã€‘ TIAN HengCi;HAO JiaLong;XU YuChen;YANG Wei;HU Sen;ZHANG Chi;LIN YangTing;LI XianHua;WU FuYuan;Key Laboratory of Earth and Planetary Physics, Institute of Geology and Geophysics, Chinese Academy of Sciences;State Key Laboratory of Space Weather, National Space Science Center, Chinese Academy of Sciences;State Key Laboratory of Lithospheric Evolution, Institute of Geology and Geophysics, Chinese Academy of Sciences;

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ã€Abstractã€‘ To investigate the distribution of solar-wind implanted H in the low latitude regions of the lunar surface, we carried out NanoSIMS depth-profiling measurements of H isotope and water content on Apollo 11 soils that were stored in the Geological Museum, Institute of Geology and Geophysics, Chinese Academy of Sciences. The results show that the surface of all lunar grains(<200 nm) has a high water content(the maximum water content varying from 0.35% to 1.59%), which is similar to the results of previous studies on Apollo 11 samples. Except for one plagioclase(A11-021-1) whose surface H isotope composition(Î´D) is-262â€°, the other grains have very low Î´D values ranging from-987â€° to-642â€°. These characteristics indicate that the high water content in the surface layer of lunar grains is the result of solar-wind implantation rather than terrestrial contamination. The different water contents and Î´D values may be caused by H diffusion after initial solar-wind implantation. In addition, we find that the water-content depth profiles of olivine, clinopyroxene and plagioclase are similar, and their water contents gradually decrease with increasing depth. By contrast, two glassy grains show simple bell-shaped water-content distributions as a function of depth that peak ca.25ï½ž43 nm below the grain surface. Such a phenomenon may be related to the difference of H diffusion rate in crystalline grain and glass and the difference of the damaged layers. As a specific study, this work also suggests that low temperature, dry and vacuum/inert gas environments are still favorable conditions for long-term preservation of extraterrestrial samples.æ›´å¤š è¿˜åŽŸ