Research field (4):
Computational science
, Basic plasma science
, Space and planetary science
, Astronomy
Research keywords (7):
Coronal Mass Ejection
, 宇宙天気
, 宇宙流体力学
, solar corona
, solar flare
, Magnetohydrodynamics
, solar physics
Research theme for competitive and other funds (2):
2016 - 2018 Statistical Study for Understanding and Prediction of Solar Explosive and Eruptive Phenomena
2007 - 2009 Multi-physics Plasma Dynamics with Macro-Micro Interlocked Simulations
Papers (43):
Daiki Yamasaki, Satoshi Inoue, Yumi Bamba, Jeongwoo Lee, Haimin Wang. A Data-constrained Magnetohydrodynamic Simulation of the X1.0 Solar Flare of 2021 October 28. The Astrophysical Journal. 2022
Kanya Kusano, Tomoya Iju, Yumi Bamba, Satoshi Inoue. A physics-based method that can predict imminent large solar flares. Science. 2020. 369. 6503. 587-591
Pei Hsuan Lin, Kanya Kusano, Daikou Shiota, Satoshi Inoue, K. D. Leka, Yuta Mizuno. A New Parameter of the Photospheric Magnetic Field to Distinguish Eruptive-flare Producing Solar Active Regions. Astrophysical Journal. 2020. 894. 1
Yumi Bamba, Satoshi Inoue, Shinsuke Imada. Intrusion of Magnetic Peninsula toward the Neighboring Opposite-polarity Region That Triggers the Largest Solar Flare in Solar Cycle 24. The Astrophysical Journal. 2020. 894. 1. 29-29
Takahiro Miyoshi, Kanya Kusano, Satoshi Inoue. A Magnetohydrodynamic Relaxation Method for Non-force-free Magnetic Field in Magnetohydrostatic Equilibrium. Astrophysical Journal, Supplement Series. 2020. 247. 1
Satoshi Inoue, Yumi Bamba. An MHD Modeling of the Successive X2.2 and X9.3 Solar Flares of 2017 September 6. Astrophysical Journal. 2021. 914. 1
Satoshi Inoue. Three-Dimensional Coronal Magnetic Field Based on the Photospheric Magnetic Field by Hinode/SP Observation. First Ten Years of Hinode Solar On-Orbit Observatory, Astrophysics and Space Science Library. 2018. 449. 115-119
Minoshima Takashi, Masuda Satoshi, Miyoshi Yoshizumi, Yamamoto Tetsuya, Kusano Kanya, Inoue Satoshi. 28pSP-14 Particle Acceleration and Transport in Solar Flares. Meeting abstracts of the Physical Society of Japan. 2009. 64. 1. 227-227
Magnetohydrodynamic Modeling of a Solar Eruptive Flux Tube
(2018)
Magnetohydrodynamic Simulation of the Solar Active Region 12678 and Eruption Accompanied with a Great Solar Flare
(Japan Geoscience Union (JpGU) meeting 2018)
活動領域12673の電磁流体力学モデリング
(太陽地球環境予測のためのモデル研究の展望 2018)
Nonlinear Dynamics of an Eruptive Flux Tube
(The 14th Asia Oceania Geoscience Society (AOGS) Anual Meeting 2017)
Education (4):
2005 - 2006 海洋研究開発機構 地球シミュレータセンター 研究生
2003 - 2006 Hiroshima University Graduate School of Advanced Sciences of Matter Department of Quantum Matter
2001 - 2003 Hiroshima University Graduate School of Advanced Sciences of Matter Department of Quantum Matter
1997 - 2001 Hiroshima University Faculty of Science
Professional career (1):
博士(理学) (広島大学)
Work history (10):
2021/03 - 現在 New Jersey Institute of Technology Center for Solar-Terrestrial Research Assistant Professor
2017/04 - 2021/03 Daido University School of Engineering
2020/03 - 2021/02 Institute for Space-Earth Environmental Research, Nagoya University
2017/01 - 2020/03 Nagoya University Institute for Space and Earth Environmental Research
2015/01 - 2015/06 Nagoya University Solar-Terrestrial Environment Laboratory
2011/11 - 2014/12 慶熙大学校(大韓民国) 宇宙探査学科 国際奨励研究員
2009/08 - 2011/10 情報通信研究機構 専攻研究員
2008/04 - 2009/07 海洋研究開発機構 ポストドクトラル研究員
2006/04 - 2008/03 Nagoya University Solar-Terrestrial Environment Laboratory
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Awards (1):
2022/02 - National Science Foundation CAREER Award Novel Data-Based Magnetohydrodynamic Simulations of Solar Eruptions
Association Membership(s) (4):
JAPAN GEOSCIENCE UNION
, American Geophysical Union
, THE ASTRONOMICAL SOCIETY OF JAPAN
, SOCIETY OF GEOMAGNETISM AND EARTH, PLANETARY AND SPACE SCIENCES
