Dehydration Decomposition of Phyllosilicates in the C-Type Asteroid Ryugu Material by Space Weathering

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Noguchi T. * Matsumoto T. Miyake A. Igami Y. Haruta M. Saito H. Hata S. Seto Y. Miyahara M. Tomioka N. Ishii H. A. Bradley J. P. Ohtaki K. Dobricǎ E. Leroux H. LeGuillou C. Jacob D. de la Peña F. Laforet S. Marinova M. Langenhorst F. Harries D. Beck P. Phan T. H. V. Rebois R. Abreu N. M. Gray J. Zega T. Zanetta P-M. Thompson M. S. Stroud R. Burgess K. Cymes B. A. Bridges J. C. Hicks L. Lee M. R. Daly L. Bland P. A. Smith W. McFadzean S. Martin P-E. Bagot P. A. J. Fougerouse D. Saxey D. W. Reddy S. Rickard W. D. A. Zolensky M. E. Frank D. R. Martinez J. Tsuchiyama A. Yasutake M. Matsuno J. Okumura S. Mitsukawa I. Uesugi K. Uesugi M. Takeuchi A. Sun M. Enju S. Takigawa A. Michikami T. Nakamura T. Matsumoto M. Nakauchi Y. Yurimoto H. Nagashima K. Kawasaki N. Sakamoto N. Okazaki R. Yabuta H. Naraoka H. Sakamoto K. Tachibana S. Watanabe S. Tsuda Y.

MetSoc 2022 abstract [#6170] LINK

“The physical processes that cause space weathering on Ryugu are identical to those on the Moon and the S-type asteroid Itokawa. However, the results are substantially different from space weathering of these anhydrous airless bodies.”

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