JpGU-AGU Joint Meeting 2020

講演情報

[E] 口頭発表

セッション記号 P (宇宙惑星科学) » P-PS 惑星科学

[P-PS07] 太陽系小天体:リュウグウとベヌーの探査および太陽系小天体全般

コンビーナ:中本 泰史(東京工業大学)、岡田 達明(宇宙航空研究開発機構宇宙科学研究所)、Dante S Lauretta(University of Arizona)、石黒 正晃(ソウル大学物理天文学科)

[PPS07-06] Artificial impact crater formed by Small Carry-on Impactor on the asteroid 162173 Ryugu in the gravity-dominated regime

★Invited Papers

*荒川 政彦1佐伯 孝尚2門野 敏彦3高木 靖彦4和田 浩二5飯島 祐一2今村 裕志2岡本 千里1嶌生 有理2白井 慶1中澤 暁2早川 雅彦2平田 成6矢野 創2澤田 弘崇2小川 和律2本田 理恵7石橋 高5坂谷 尚哉2戸田 知朗2早川 基2杉田 精司8諸田 智克8亀田 真吾9巽 瑛理13本田 親寿6横田 康弘2神山 徹10山田 学5鈴木 秀彦11吉岡 和夫8長 勇一郎8松岡 萌2ミッチェル パトリック12 (1.神戸大学大学院理学研究科、2.宇宙航空研究開発機構、3.産業医科大学医学部、4.愛知東邦大学、5.千葉工業大学惑星探査研究センター、6.会津大学、7.高知大学高知大学自然科学系理工学部門、8.東京大学、9.立教大学理学部、10.産業技術総合研究所、11.明治大学、12.コートダジュール天文台、13.カナリア天文物理学研究所 )

キーワード:衝突実験、小惑星、衝突クレーター

The Japanese asteroid explorer Hayabusa2 conducted an impact experiment by using a Small Carry-on Impactor (SCI) on the surface of Ryugu, which constituted the first impact experiment on an asteroid, on April 5th, 2019, and successfully formed an artificial impact crater larger than 10 m in size. The SCI crater has a semicircular shape and an elevated rim around the crater. We found a large boulder named as Iijima-boulder with the size of 5m on the crater floor and it could be moved about 3m northeast during the crater formation. There was another large boulder named as Okamoto-boulder at the south edge of the SCI crater, but we could not detect finite displacement of this boulder after the SCI impact. The Okamoto boulder might have a deep root below the surface and this boulder could stop the ejecta excavation flow toward the south region so that the SCI crater did not grow southward to became a semicircular shape. The size-frequency distribution of the boulders on the SCI crater wall was found to be different from that outside of the SCI crater: the sub-meter sized boulders were deficient on the crater wall. Moreover, a circular depression like a pit was recognized at the center of the SCI crater and it might indicate a cohesive subsurface layer.
The ejecta curtain was observed by a Deployable CAMera3 (DCAM3) from the beginning of the crater formation for more than 10 min. We found that the ejecta curtain continued to grow more than 200 s and the ejecta curtain growth was asymmetric and heterogeneous. We never observed the ejecta curtain growth toward the south, and this feature is consistent with the fact that the crater growth was prohibited by Okamoto-boulder placed at the south region. The observed ejecta curtain growing northward were separated into several rays and this heterogeneity could be due to large boulders covering the surface. The detachment of the ejecta curtain from the ground was never observed during the crater growth and beyond the duration of the crater formation time of 300 s. The ejecta was then confirmed to be deposit on the surface by the gravity of Ryugu.
Our observations of the SCI crater and the ejecta curtain showed that the artificial impact crater was formed in the gravity dominated regime although the surface gravity was as small as 10-5G and the surface was covered with large boulders. Thus, the crater scaling laws in the gravity dominated regime are appropriate for Ryugu and the crater chronology on Ryugu should be revised according to crater size scaling laws that are suitable for the non-cohesive surfaces. This new finding on the suitable scaling laws for a small C-type asteroid could feed collisional evolution models of asteroid populations and their migration within the solar system.
Acknowledgement: P.M. acknowledges funding support from CNES