Constraining the formation and transport of lunar impact glasses using the ages and chemical compositions of Chang’e-5 glass beads

Authors :: Tao Long
Yuqi Qian
Marc D. Norman
Katarina Miljkovic
Carolyn Crow
James W. Head
Xiaochao Che
Romain Tartèse
Nicolle Zellner
Xuefeng Yu
Shiwen Xie
Martin Whitehouse
Katherine H. Joy
Clive R. Neal
Joshua F. Snape
Guisheng Zhou
Shoujie Liu
Chun Yang
Zhiqing Yang
Chen Wang
Long Xiao
Dunyi Liu
Alexander Nemchin
Source :: Tartese, R, Joy, K H, Snape, J F & et al. 2022, ' Constraining the formation and transport of lunar impact glasses using the ages and chemical compositions of Chang’e-5 glass beads ', Science Advances . https://doi.org/10.1126/sciadv.abq2542
Publication Year :: 2022
Publisher :: American Association for the Advancement of Science (AAAS), 2022.
Abstract: Impact glasses found in lunar soils provide a possible window into the impact history of the inner solar system. However, their use for precise reconstruction of this history is limited by an incomplete understanding of the physical mechanisms responsible for their origin and distribution and possible relationships to local and regional geology. Here, we report U-Pb isotopic dates and chemical compositions of impact glasses from the Chang’e-5 soil and quantitative models of impact melt formation and ejection that account for the compositions of these glasses. The predominantly local provenance indicated by their compositions, which constrains transport distances to

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