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Evidence of water on the lunar surface from Chang'E-5 in-situ spectra and returned samples.

Jianjun LiuBin LiuXin RenChunlai LiRong ShuLin GuoSongzheng YuQin ZhouDawei LiuXingguo ZengXingye GaoGuangliang ZhangWei YanHongbo ZhangLihui JiaShifeng JinChunhua XuXiangjin DengJianfeng XieJianfeng YangChangning HuangWei ZuoYan SuWeibin WenZiyuan Ouyang
Published in: Nature communications (2022)
The distribution range, time-varying characteristics, and sources of lunar water are still controversial. Here we show the Chang'E-5 in-situ spectral observations of lunar water under Earth's magnetosphere shielding and relatively high temperatures. Our results show the hydroxyl contents of lunar soils in Chang'E-5 landing site are with a mean value of 28.5 ppm, which is on the weak end of lunar hydration features. This is consistent with the predictions from remote sensing and ground-based telescopic data. Laboratory analysis of the Chang'E-5 returned samples also provide critical clues to the possible sources of these hydroxyl contents. Much less agglutinate glass contents suggest a weak contribution of solar wind implantation. Besides, the apatite present in the samples can provide hydroxyl contents in the range of 0 to 179 ± 13 ppm, which shows compelling evidence that, the hydroxyl-containing apatite may be an important source for the excess hydroxyl observed at this young mare region.
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