日本地球惑星科学連合2021年大会

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[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-PS03] Regolith Science

2021年6月5日(土) 15:30 〜 17:00 Ch.04 (Zoom会場04)

コンビーナ:和田 浩二(千葉工業大学惑星探査研究センター)、中村 昭子(神戸大学大学院理学研究科)、Patrick Michel(Universite Cote D Azur Observatoire De La Cote D Azur CNRS Laboratoire Lagrange)、John Kevin Walsh(Southwest Research Institute Boulder)、座長:嶌生 有理(宇宙航空研究開発機構宇宙科学研究所)

16:15 〜 16:30

[PPS03-10] Local variation in thermal inertia around the artificial impact crater on Ryugu

*坂谷 尚哉1、田中 智2、岡田 達明2、神山 徹3、三浦 昭2、平田 成4、千秋 博紀5、荒井 武彦6、嶌生 有理2、出村 裕英4、関口 朋彦7、滝田 隼8、福原 哲哉1、Müller Thomas9、Hagermann Axel10、Biele Jens11、Grott Matthias11、Hamm Maximillian11,12、Delbo Marco13、荒川 政彦14、小川 和律15、和田 浩二5、門野 敏彦16、本田 理恵17、白井 慶14、佐伯 孝尚2、今村 裕志2、髙木 靖彦18、矢野 創2、早川 雅彦2、澤田 弘崇2、中澤 暁2、杉田 精司19、諸田 智克19、山田 学5、亀田 真吾1、巽 瑛理20、横田 康弘2、鈴木 秀彦21、吉岡 和夫19、松岡 萌2、長 勇一郎2 (1.立教大学、2.JAXA 宇宙科学研究所、3.産業技術総合研究所、4.会津大学、5.千葉工業大学、6.足利大学、7.北海道教育大学、8.北海道北見高校、9.Max-Planck Institute for Extraterrestrial Physics、10.Luleå University of Technology、11.German Aerospace Center、12.University of Potsdam、13.Observatoire de la Côte d'Azur, CNRS、14.神戸大学、15.JAXA 国際宇宙探査センター、16.産業医科大学、17.高知大学、18.愛知東邦大学、19.東京大学、20.Instituto de Astrofisica de Canarias、21.明治大学)

The Hayabusa2 spacecraft has completed the rendezvous phase around Cb-type asteroid Ryugu in 2019. From thermal infrared imaging by TIR, global temperature distribution of Ryugu is consistent with the thermal calculation with thermal inertia of 300±100 J m-2 K-1 s-0.5 [1], and thermal inertia values of the floors of craters are in general roughly comparable with the global average [2]. On the other hand, few small and fresh craters show anomalously low thermal inertia less than 100 J m-2 K-1 s-0.5, contributed from the highly porous nature of boulders exposed by the impact cratering [3]. On April 2019, Hayabusa2 performed an artificial impact (Small Carry-on Impactor or SCI) experiment [4], whereby a ~2 kg mass was fired at 2 km/s against the asteroid surface. As a result of the successful operation, an artificial crater (SCI crater) with diameter larger than 10 m was created on the asteroid.

In the preliminary analysis of TIR data of the SCI crater, we suggested no thermally-anomalous materials on the crater floor [3]. In other words, the SCI crater has similar thermal inertia with the global average, and physical properties of the subsurface materials are similar to that of the top surface, at least on the SCI impact site. However, regional difference in the thermal inertia inside and outside the SCI crater have not been discussed. We will present whether the regional variation of the thermophysical properties appears around the SCI craters.

References: [1] Okada et al. (2020), Nature 579, 518-522. [2] Shimaki et al. (2020), Icarus 348, 113835. [3] Sakatani et al. (2021), LPSC #1832, #2189. [4] Arakawa et al. (2020), Science 368, 67-71.