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J-GLOBAL ID：201301094908817392 Update date: Apr. 03, 2024

Takahashi Kazunori

タカハシカズノリ | Takahashi Kazunori

Affiliation and department：
Job title： Associate Professor
Homepage URL (1)： https://sites.google.com/tohoku.ac.jp/pdp-lab

Research field (1)： Basic plasma science

Research keywords (3)：プラズマ理工学 , 電気推進 , プラズマ応用

Research theme for competitive and other funds (21)：

2023 - 2028 Research on a high-power magnetic nozzle plasma thruster
2021 - 2024 Laboratory simulation of astrophysical phenomena via interaction between a low-pressure plasma and dynamic liquid metal
2022 - 2023 大電力磁気ノズルプラズマ推進機による宇宙輸送革新
2019 - 2023 Plasma momentum transport and detachment from a magnetic nozzle
2018 - 2023 Beam extraction boundary physics and control of particle dynamics for steady state negative ion sources

2018 - 2021 Development of a space debris removal technology by a bi-directional plasma acceleration

2018 - 2021 New concept of electric propulsion using a liquid metal sputtering

2018 - 2021 Development of a high-intensity optical cavity and a photo-neutralizer for high energy negative ion beams

2017 - 2020 Investigation of boundary structure of ionic pair plasma and development of high perfomance negative ion beam

2016 - 2019 Transport and control of plasma momentum associated with a plasma-gas interaction in a plasma thruster

2015 - 2018 Interaction between the hydrogen bond in the ice and atmospheric-pressure plasma and its applications for the snow-melting device

2014 - 2018 Understanding a magnetic nozzle plasma flow dynamics and extension to a high power electric propulsion

2013 - 2016 Thrust generation mechanisms by a helicon plasma thruster and its performance improvement

2012 - 2015 Production of high-density plasma using pulsed glow discharge and its applications for surface treatment

2009 - 2014 Research and Development of a Novel Electrodeless Plasma Rocket Engine Using a Helicon Source

2011 - 2013 Direct measurement of a wave propagating inside a plasma photonic crystal for investigating a novel functional property

2010 - 2012 Control and Improvement of a double layer ion acceleration in a magnetically expanding plasma

2008 - 2010 Development and applications of a novel low-temperature plasma source under atmospheric pressure

2008 - 2009 Plasma Source Development for an advanced electrodeless electric propulsion

2007 - 2008 無電極粒子加速を目指した永久磁石利用へリコン波プラズマ源の開発

2004 - 2006 磁化プラズマ中電子サイクロトロン周波数帯左旋円偏波の伝搬・減衰機構の解明

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Papers (180)：

Kazunori Takahashi. Modelling a thrust imparted by a highly ionized magnetic nozzle rf plasma thruster. Journal of Plasma Physics. 2024. 90. 975900201-1-975900201-12
Soya Sumikawa, Kazunori Takahashi. Measurement of a force imparted to a magnetic nozzle by electron diamagnetism. Physics of Plasmas. 2024. 31. 3. 034501-1-034501-5
Yugo Nakahama, Kazunori Takahashi. Effect of a permanent-magnet-induced cusp field on a magnetic nozzle radio frequency plasma thruster. AIP Advances. 2024. 14. 1. 015059-1-015059-8
Kazunori Takahashi, Soya Sumikawa. Experimental investigation on magnetic field strength providing thrust saturation in a magnetic nozzle radiofrequency plasma thruster. Plasma Physics and Controlled Fusion. 2024. 66. 015012-1-015012-9
Kazunori Takahashi, Yume Teranishi. Characterization of a radiofrequency linear plasma device in uniform and convergent magnetic fields. Plasma Sources Science and Technology. 2023. 32. 12. 125004-1-125004-8

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MISC (47)：

高橋和貴, CHARLES Christine, BOSWELL Rod, 安藤晃. ヘリコンスラスタからの双方向プラズマ運動量放出とスペースデブリ除去. 日本物理学会講演概要集(CD-ROM). 2019. 74. 1. ROMBUNNO.15pK309-5
菅原丈晴, 高橋和貴, 鷹尾祥典, 安藤晃. ヘリコンスラスタ内壁への局所運動量損失ベクトルの分布評価. 日本物理学会講演概要集(CD-ROM). 2019. 74. 1. ROMBUNNO.15pK309-6
ANDO Akira, TAKAHASHI Kazunori. Current status and issues of electric rocket propulsion for future missions ~Electromagnetic Thrusters~. Journal of Plasma and Fusion Research. 2018. 94. 2. 76-80
Effects of neutral distribution and external magnetic field on propulsion performance of electrodeless plasma thrusters. 2016. 60. 5p
Non-WKB Standing helicon wave due to a rapidly bent magnetic field. 2016. 2016. 18. 81-85

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Patents (9)：

イオンビーム照射装置
微細立体構造形成方法,微細立体構造,プラズマエッチング装置及びガス供給システム
Plasma generating device, plasma sputtering device, and plasma sputtering method
イオンフロー制御型プラズマ源、及び、誘導フラーレンの製造方法
プラズマ処理装置、プラズマ生成方法、およびセルフバイアス印加方法

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Lectures and oral presentations (376)：

Plasma dy namics in a magnetic nozzle radiofrequency plasma thruster
(ISPlasma2024/IC-PLANTS2024/APSPT-13 2024)
Effect of gas injection pattern on magnetically expanding rf plasma thruster
(ISPlasma2024/IC-PLANTS2024/APSPT-13 2024)
Electron beam extraction from an inductively coupled radiofrequency plasma source
(ISPlasma2024/IC-PLANTS2024/APSPT-13 2024)
水燃料スパッタリング推進機に関する室内実験
(2023年度宇宙輸送シンポジウム 2024)
カスプ型磁気ノズル高周波スラスタ内部の電子温度分布評価とターゲット計測
(2023年度宇宙輸送シンポジウム 2024)

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Education (3)：

- 2006 Tohoku University Graduate School, Division of Engineering
- 2004 Tohoku University Graduate School, Division of Engineering
- 2002 Tohoku University Faculty of Engineering

Professional career (1)：

博士(工学) (Tohoku University)

Work history (10)：

2024/01 - 現在東北大学グリーン未来創造機構
2023/04 - 現在大学共同利用機関法人自然科学研究機構核融合科学研究所客員准教授
2022/05 - 現在東北大学ディスティングイッシュトリサーチャー
2014 - 現在 National Institute of Advanced Industrial Science and Technology
2013/04 - 現在東北大学大学院工学研究科准教授

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Committee career (13)：

2024/04 - 現在大学共同利用機関法人自然科学研究機構核融合科学研究所ユニット研究戦略会議構成員
2024/01 - 現在プラズマ・核融合学会領域委員,領域プログラム委員
2020/05 - 現在 Frontiers in Space Technologies Associate Editor
2018/09 - 現在 Plasma Research Express Editorial Board Member
2017/04 - 現在核融合ネットワーク委員核融合ネットワーク委員

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Awards (22)：

2022/12 - JSPS JSPS Prize Studies on Plasma Dynamics in Magnetic Nozzles and Space Propulsion
2022/05 - Institute of Physics IOP Publishing IOP Trusted Reviewer 2022
2022/03 - Scientific Reports (Nature publishing group) Top 100 in Physics 2021 Magnetic nozzle radiofrequency plasma thruster approaching twenty percent thruster efficiency
2021/04 - IOP(Institute of Physics) Publishing IOP Outstanding Reviewer Award
2020/09 - IOP Publishing IOP Trusted Reviewer

2020/03 - Springer Nature 2019: Research Highlights from the past year (Physics) Helicon-type radiofrequency plasma thrusters and magnetic plasma nozzles

2019/04 - Scientific Reports (Nature publishing group) Top 100 in Physics 2018 Demonstrating a new technology for space debris removal using a bi-directional plasma thruster

2016/12/07 - Association of Asia Pacific Physical Societies, Division of Plasma Physics AAPPS-DPP Young Research Award, selected by Prof Donald Blair Melrose

2016/12/07 - Association of Asia Pacific Physical Societies, Division of Plasma Physics AAPPS-DPP Young Research Award, selected by Prof Setsuo Ichimaru

2016/12/07 - Association of Asia Pacific Physical Societies, Division of Plasma Physics AAPPS-DPP Young Research Award, selected by Prof Predhiman Krishan Kaw

2016/05 - (公財)インテリジェント・コスモス学術振興財団第15回インテリジェント・コスモス奨励賞磁気ノズルヘリコンプラズマ宇宙推進機の学理と開発

2013/12/06 - 一般社団法人プラズマ・核融合学会プラズマ核融合学会若手学会発表賞磁気ノズル中径方向拡散の抑制によるヘリコンスラスターの性能向上

2013/12/06 - 青葉工学振興会第7回青葉工学振興会賞

2013/03 - 矢崎科学技術振興記念財団矢崎科学技術振興記念財団 2012年度学術賞

2012/09 - 電気学会平成23年電気学会優秀論文発表賞(基礎・材料・共通部門表彰)

2012/04 - 電気学会東北支部電気学会東北支部優秀論文賞

2012/03 - 日本物理学会日本物理学会第6回若手奨励賞

2011/04 - 文部科学省平成23年度文部科学大臣表彰若手科学者賞

2009/03 - 電気学会電気学会優秀論文発表賞

2007/03 - 東北大学電気系東北大学電気情報優秀賞

2006/12 - 財団法人青葉工学振興会財団法人青葉工学振興会第12回研究奨励賞

2006/06 - 核融合エネルギー連合講演会第6回核融合エネルギー連合講演会優秀発表賞

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Association Membership(s) (3)：

American Physical Society , プラズマ・核融合学会 , 日本物理学会

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