Google Scholar, ADS, ORCID: 0000-0002-2383-1216, Researchgate
Refereed Journals
[20] Kuzuhara, M. et al. (78th author/105) (2024) Gliese 12 b: A temperate Earth-sized planet at 12 pc ideal for atmospheric transmission spectroscopy. ApJL, 967, L21, arXiv:2405.14708[19] Matsumoto, Y., Kurosawa, K., Arakawa, S. (2024) Chondrule Destruction via Dust Collisions in Shock Waves. ApJ, 966, 162, arXiv:2404.05954
[18] Matsumoto, Y., Arakawa, S. (2023) Igneous Rim Accretion on Chondrules in Low-Velocity Shock Waves. ApJ, 948, 73, arXiv:2303.10450
[17] Hirano, T. et al. (11th author/49) (2023) An Earth-sized Planet around an M5 Dwarf Star at 22 pc. AJ, 165, 131, arXiv:2302.00699
[16] Harakawa, H. et al. (33rd author/49) (2022) A Super-Earth Orbiting Near the Inner Edge of the Habitable Zone around the M4.5-dwarf Ross 508. PASJ, 74, 904, arXiv:2205.11986
[15] Matsumoto, Y., Kokubo, E., Gu, P.-G., Kurosaki, K. (2021) Size evolution of close-in super-Earths through giant impacts and photoevaporation. ApJ, 923, 81, arXiv:2109.13487
[14] Arakawa, S., Matsumoto, Y., Honda, M. (2021) On the crystallinity of silicate dust in evolving protoplanetary disks due to magnetically driven disk winds. ApJ, 920, 27, arXiv:2107.08370
[13] Matsumoto, Y., Hasegawa, Y., Matsuda, N., Liu, M.-C. (2021) Formation of rims around chondrules via porous aggregate accretion. Icarus, 367, 114538, arXiv:2105.06051
[12] Lin, Y.-C., *Matsumoto, Y., Gu, P.-G. (2021) Formation of multiple-planet systems in resonant chains around M dwarfs. ApJ, 907, 81, arXiv:2012.03469
[11] Matsumoto, Y., Gu, P.-G., Kokubo, E., Oshino, S., Omiya, M. (2020) Ejection of close-in super-Earths around low-mass stars in the giant impact stage. A&A, 642, A23, arXiv:2007.14039
[10] Matsumoto, Y., Ogihara, M. (2020) Breaking Resonant Chains: Destabilization of Resonant Planets due to Long-term Mass Evolution. ApJ, 893,43, arXiv:2003.01965
[9] Matsumoto, Y., Wakita, S., Hasegawa, Y., Oshino, S. (2019) Aggregate Growth and Internal structures of Chondrite Parent Bodies Forming from Dense Clumps. ApJ, 887, 248, arXiv:1911.10467
[8] Oshino, S., Hasegawa, Y., Wakita, S., Matsumoto, Y. (2019) The Properties of Planetesimal Collisions under Jupiter's Perturbation and the Application to Chondrule Formation via Impact Jetting. ApJ, 884, 37, arXiv:1909.03655
[7] Matsumoto, Y., Kokubo, E. (2017) Formation of Close-in Super-Earths by Giant Impacts: Effects of Initial Eccentricities and Inclinations of Protoplanets. AJ, 154, 27, arXiv:1705.07810
[6] Matsumoto, Y., Oshino, S., Hasegawa, Y., Wakita, S. (2017) Chondrule Accretion with a Growing Protoplanet. ApJ, 837, 103, arXiv:1702.07989
[5] Wakita, S., Matsumoto, Y., Oshino, S., Hasegawa, Y. (2017) Planetesimal collisions as a chondrule forming event. ApJ, 834, 125, arXiv:1611.05511
[4] Hasegawa, Y., Turner N. J., Masiero, J., Wakita, S., Matsumoto, Y., Oshino, S. (2016) Formation Chondrites in a Solar Nebula with Magnetically Induced Turbulence. ApJL, 820, L12, arXiv:1603.00086
[3] Hasegawa, Y., Wakita, S., Matsumoto, Y., Oshino, S. (2016) Chondrule Formation via Impact Jetting Triggered by Planetary Accretion. ApJ, 816, 8, arXiv:1511.03344
[2] Matsumoto, Y., Nagasawa, M., Ida, S. (2015) Eccentricity Evolution Through Accretion of Protoplanets. ApJ, 810, 106, arXiv:1507.08809
[1] Matsumoto, Y., Nagasawa, M., Ida, S. (2012) The orbital stability of planets trapped in the first-order mean-motion resonances. Icarus, 221, 624-631, arXiv:1208.5937
Proceedings
[2] Gu, P.-G., Matsumoto, Y., Kokubo, E., Kurosaki, K. (2023) Size Evolution and Orbital Architecture of KEPLER Small Planets through Giant Impacts and Photoevaporation, Winds of Stars and Exoplanets, Proceedings of the International Astronomical Union, Volume 370, pp. 251-256[1] Ishikawa, H., *Takada, S., Matsumoto, Y. (2021) Rheology of two-dimensional crushable granular materials, Powders & Grains 2021, EPJ Web of Conferences 249, 07007
Other publications
[3] 松本 侑士, 遊星人の海外研究記 その4 ~ 台湾における天文研究 ~, 「遊・星・人」第29巻 (2020), 4号, 227 (Matsumoto, Y., (2020) Letter from planetary people working abroad -- Astronomical researches in Taiwan --, Planetary People, 29, 4, 227)[2] SPICA サイエンス検討会メンバー, SPICAサイエンス検討会最終報告書 (SPICA white paper, §6.3)
[1] Matsumoto, Y., Kokubo, E. (2019) Formation of Close-in Super-Earths by Giant Impacts: Effects of Initial Eccentricities and Inclinations of Protoplanets, Annual Report of the National Astronomical Observatory of Japan, Volume 30, Fiscal 2017, Scientific Highlights 01 (English, Japanese)
*: corresponding author (≠ first author)