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査読付き論文

  1. Kadono, T., Suzuki, A.I., Matsumura, R., Naka, J., Suetsugu, R., Kurosawa, K., Hasegawa, S. (2020) Crater-ray formation through mutual collisions of hypervelocity-impact induced ejecta particles. Icarus 339, 113590. doi:10.1016/j.icarus.2019.113590
  2. Kadono, T., Suetsugu, R., Arakawa, D., Kasagi, Y., Nagayama, S., Suzuki, A.I., Hasegawa, S., (2019) Pattern of impact-induced ejecta from granular targets with large inclusions. The Astrophysical Journal Letters 880, L30. doi:10.3847/2041-8213/ab303f
  3. Kadono, T., Suzuki, A.I., Araki, S.-I., Asada, T., Suetsugu, R., Hasegawa, S. (2018) Investigation of impact craters on flat surface of cylindrical targets based on experiments and numerical simulations. Planet. Space. Sci. 163, 77–82. doi:10.1016/j.pss.2018.06.002
  4. Noguchi, R., Hamada, A., Suzuki, A.I., Kurita, K. (2018) Experimental approach to rootless eruptions using kitchen materials. Earth, Planets and Space 70, 208. doi:10.1186/s40623-018-0974-6
  5. Suzuki, A.I., Okamoto, C., Kurosawa, K., Kadono, T., Hasegawa, S., Hirai, T. (2018) Increase in cratering efficiency with target curvature in strength-controlled craters. Icarus , 301, 1-8. doi:10.1016/j.icarus.2017.10.019
  6. Yamamoto, S., Hasegawa, S., Suzuki, A.I., Matsunaga, T. (2017) Impact velocity dependence of transient cratering growth. J. Geophys. Res. 122, 1077–1089. doi:10.1002/2016JE005252
  7. 鈴木絢子,栗田敬 (2016) 火星衝突クレーターの特異なエジェクタ地形と劣化過程,地学雑誌,125(1), 13-33.
  8. 山本聡,長谷川直,鈴木絢子,松永恒雄 (2015) 高速ビデオカメラを使わない衝突クレーター形成過程のその場観測(<特集> 日本における衝突研究の軌跡),日本惑星科学会誌「遊・星・人」,24(3), 239-246.
  9. Tsujido, S., Arakawa, M., Suzuki, A. I., Yasui, M. (2015) Ejecta velocity distribution of impact craters formed on quartz sand: Effect of projectile density on crater scaling law, Icarus, 262, 79-92.
  10. Kadono, T., Suzuki, A. I., Wada, K., Mitani, N. K., Yamamoto, S., Arakawa, M., Sugita, S., Haruyama, J., Nakamura, A. M. (2015) Crater-ray formation by impact-induced ejecta particles, Icarus, 250, 215-221.
  11. Suzuki, A. I., Nakamura, A. M., Kadono, T., Wada, K., Yamamoto, S., Arakawa, M. (2013) A formation mechanism for concentric ridges in ejecta surrounding impact craters in a layer of fine glass beads, Icarus 225, 298-307.
  12. 杉山耕一朗,鈴木絢子,高橋隼,中村友昭,真鍋翔,堺正太朗,鶴巻亮一,中岡礼奈,辰巳信平,谷伊織,加藤則行,梅本隆史,押川智美,三上峻,倉本圭,林祥介,中川義次,惑星科学研究センター (2012) 惑星科学研究センター(CPS)における知見アーカイブ,日本惑星科学会誌「遊・星・人」,21(4), 368-376.
  13. Suzuki, A., Hakura, S., Hamura, T., Hattori, M., Hayama, R., Ikeda, T., Kusuno, H., Kuwahara, H., Muto, Y., Nagaki, K., Niimi, R., Ogata, Y., Okamoto, T., Sasamori, T., Sekigawa, C., Yoshihara, T., Hasegawa, S., Kurosawa, K., Kadono, T., Nakamura, A. M., Sugita, S., Arakawa, M. (2012) Laboratory experiments on crater scaling-law for sedimentary rocks in the strength regime, Journal of Geophysical Research, 117, E08012, doi:10.1029/2012JE004064.
  14. Suzuki, A., Kumagai, I., Nagata, Y., Kurita, K., Barnouin-Jha, O. S. (2007) Modes of ejecta emplacement at Martian craters from laboratory experiments of an expanding vortex ring interacting with a particle layer, Geophysical Research Letters, 34, L05203, doi:10.1029/2006GL028372.
Last modified: 2020.10.4
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