Mineralogy and petrology of fine-grained samples recovered from the asteroid (162173) Ryugu

Auteurs

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.K., Dobrică E., Leroux H., Guillou C.L., Jacob D., de la Peña F., Laforet S., Mouloud B.E., 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.A., 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., Abe M., Nakazawa S., Okada T., Saiki T., Tanaka S., Terui F., Yoshikawa M., Miyazaki A., Nakato A., Nishimura M., Usui T., Yada T., Yurimoto H., Nagashima K., Kawasaki N., Sakamotoa N., Hoppe P., Okazaki R., Yabuta H., Naraoka H., Sakamoto K., Tachibana S., Watanabe S.i., Tsuda Y.

Référence

Meteoritics and Planetary Science, vol. 59, n° 8, pp. 1877-1906, 2024

Description

Samples returned from the carbonaceous asteroid (162173) Ryugu by the Hayabusa2 mission revealed that Ryugu is composed of materials consistent with CI chondrites and some types of space weathering. We report detailed mineralogy of the fine-grained Ryugu samples allocated to our “Sand” team and report additional space weathering features found on the grains. The dominant mineralogy is composed of a fine-grained mixture of Mg-rich saponite and serpentine, magnetite, pyrrhotite, pentlandite, dolomite, and Fe-bearing magnesite. These grains have mineralogy comparable to that of CI chondrites, showing severe aqueous alteration but lacking ferrihydrite and sulfate. These results are similar to previous works on large Ryugu grains. In addition to the major minerals, we also find many minerals that are rare or have not been reported among CI chondrites. Accessory minerals identified are hydroxyapatite, Mg-Na phosphate, olivine, low-Ca pyroxene, Mg-Al spinel, chromite, manganochromite, eskolaite, ilmenite, cubanite, polydymite, transjordanite, schreibersite, calcite, moissanite, and poorly crystalline phyllosilicate. We also show scanning transmission electron microscope and scanning electron microscope compositional maps and images of some space-weathered grains and severely heated and melted grains. Although our mineralogical results are consistent with that of millimeter-sized grains, the fine-grained fraction is best suited to investigate impact-induced space weathering.

Lien

doi:10.1111/maps.14093

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