Takahashi Masayuki

タカハシマサユキ | Takahashi Masayuki

Affiliation and department：
Job title： Assistant Professor
Homepage URL (2)： http://db.tohoku.ac.jp/whois/detail/95a48ea02a26d44f62a549dc4497c850.html , http://db.tohoku.ac.jp/whois/e_detail/95a48ea02a26d44f62a549dc4497c850.html

Research field (3)： Aerospace engineering , Fluid engineering , Basic plasma science

Research keywords (3)： Space Propulsion , Flow Control , Beam-Induced Discharge

Research theme for competitive and other funds (7)：

2023 - 2024 大気吸い込み型電気推進機確立に向けたレーザーデトネーション風洞による極超音速流生成
2023 - 2024 ビーム誘起爆轟現象のメカニズム解明と推進ロケットへの応用
2020 - 2022 Establishment of Flow Control Device for Achieving Low-boom and High-lift Supersonic Aircraft
2017 - 2020 Establishment of Flight Technique of Next Generation Rocket Driven by High-Intensity Electromagnetic Beam
2018 - 2019 Establishment of Advanced Flow Control Device for Low Boom and High Lift-to-Drag Ratio of Supersonic Aircraft

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Papers (45)：

Harihara Sudhan Kumar, Masayuki Takahashi, Yasuhiro Kuramitsu, Naofumi Ohnishi. Integrating sheath and radiation-based acceleration using scaling coefficients for tailoring radiation dominant hybrid acceleration. Scientific Reports. 2024. 14. 1
Harihara Sudhan Kumar, Masayuki Takahashi, Yasuhiro Kuramitsu, Takumi Minami, Hiromitsu Kiriyama, Yuji Fukuda, Naofumi Ohnishi. A hybrid simulation integrating molecular dynamics and particle-in-cell methods for improved laser-target interaction. High Energy Density Physics. 2024. 101148-101148
Soichiro Suzuki, Masayuki Takahashi. Numerical Simulation of Electromagnetic-wave Interference induced by ionization-front of Millimeter-wave Discharge at Subcritical Conditions and Application to Discharge Structure Identification. 2024
S. Suzuki, K. Hamasaki, M. Takahashi, C. Kato, N. Ohnishi. Numerical analysis of structural change process in millimeter-wave discharge at subcritical intensity. Physics of Plasmas. 2022. 29. 9. 093507-093507
S Suzuki, C Kato, M Takahashi, N Ohnishi. Plasma propagation via radiation transfer in millimeter-wave discharge under subcritical condition. Journal of Physics: Conference Series. 2022. 2207. 1. 012046-012046

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MISC (6)：

Masayuki Takahashi, Kimiya Komurasaki. Discharge in a High Intensity Millimeter-Wave Beam and Its Application to Propulsion. Advances in Physics: X. 2018. 1. 1417744
Masayuki Takahashi. Physics of Millimeter-Wave Discharge and Its Application to Microwave Rocket. Journal of Plasma Fusion Research. 2017. 93. 10. 478-483
Numerical Study of Microwave Rocket for Improvement of Thrust Performance. 2015. 59. 5p
Ionization Frequency Dependence of Atmospheric Plasma Formation by High-Power Microwave. 2014. 58. 4p
Stable Flight of kg-order Laser Propelled Vehicle Using Active Control. 2013. 57. 5p

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Education (3)：

2012 - 2015 Tohoku University School of Engineering Department of Aerospace Engineering
2011 - 2012 Tohoku University School of Engineering Department of Aerospace Engineering
2007 - 2011 Tohoku University School of Engineering Department of Mechanical and Aerospace Engineering

Professional career (1)：

Work history (7)：

2019/04 - 現在 Tohoku University Department of Aerospace Engineering Associate Professor
2019/06 - 2020/03 University of Toulouse III Paul Sabatier Visiting researcher
2016/10 - 2019/03 Tohoku University Department of Aerospace Engineering Assistant Professor
2016/04 - 2016/09 Japan Society for the Promotion of Science Research Fellow PD (The University of Tokyo)
2015/10 - 2016/03 Japan Society for the Promotion of Science Research Fellow PD (Tohoku University)

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Awards (2)：

Association Membership(s) (4)：

米国物理学会 , 米国航空宇宙学会 , プラズマ核融合学会 , 日本航空宇宙学会

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