Implications of High Polarization Degree for the Surface State of Ryugu

Kuroda, Daisuke and Geem, Jooyeon and Akitaya, Hiroshi and Jin, Sunho and Takahashi, Jun and Takahashi, Koki and Naito, Hiroyuki and Makino, Kana and Sekiguchi, Tomohiko and Bach, Yoonsoo P. and Seo, Jinguk and Sato, Shuji and Sasago, Hiroshi and Kawabata, Koji S. and Kawakami, Aoi and Tozuka, Miyako and Watanabe, Makoto and Takagi, Seiko and Kuramoto, Kiyoshi and Yoshikawa, Makoto and Hasegawa, Sunao and Ishiguro, Masateru (2021) Implications of High Polarization Degree for the Surface State of Ryugu. The Astrophysical Journal Letters, 911 (2). L24. ISSN 2041-8205

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Abstract

The asteroid exploration project "Hayabusa2" has successfully returned samples from the asteroid (162173) Ryugu. In this study, we measured the linear polarization degrees of Ryugu using four ground-based telescopes from 2020 September 27 to December 25, covering a wide-phase angle (Sun-target-observer's angle) range from 28° to 104°. We found that the polarization degree of Ryugu reached 53% around a phase angle of 100°, the highest value among all asteroids and comets thus far reported. The high polarization degree of Ryugu can be attributed to the scattering properties of its surface layers, in particular the relatively small contribution of multiply scattered light. Our polarimetric results indicate that Ryugu's surface is covered with large grains. On the basis of a comparison with polarimetric measurements of pulverized meteorites, we can infer the presence of submillimeter-sized grains on the surface layer of Ryugu. We also conjecture that this size boundary represents the grains that compose the aggregate. It is likely that a very brittle structure has been lost in the recovered samples, although they may hold a record of its evolution. Our data will be invaluable for future experiments aimed at reproducing the surface structure of Ryugu.

Item Type: Article
Subjects: Research Scholar Guardian > Physics and Astronomy
Depositing User: Unnamed user with email support@scholarguardian.com
Date Deposited: 13 May 2023 07:57
Last Modified: 06 Feb 2024 04:08
URI: http://science.sdpublishers.org/id/eprint/810

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