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J-GLOBAL ID：200901093325697632 Update date: Dec. 08, 2025

Ozaki Norimasa

オザキノリマサ | Ozaki Norimasa

Affiliation and department：
Job title： Associate Professor

Research field (6)： Applied physics - general , Solid earth science , Space and planetary science , Nuclear fusion , Basic plasma science , Applied plasma science

Research keywords (14)：レーザー科学 , X線自由電子レーザー , 超高速計測・観察 , 高圧構造相転移 , レーザープロセス , 超高速衝突 , 惑星内部構造 , Warm Dense Matter , 高エネルギー密度科学 , 状態方程式 , 衝撃波 , 超高圧 , 核融合学 , プラズマ理工学

Research theme for competitive and other funds (37)：

2023 - 2030 Exploration of the principles of structural changes of material and field in solids and plasmas under extreme conditions with high-power lasers
2025 - 2030 X線超解像によるレーザー衝撃波面のミクロ-メゾ構造ダイナミクス
2018 - 2028 先端ビームによる微細構造物形成過程解明のためのオペランド計測
2018 - 2028 先端レーザーイノベーション拠点
2025 - 2026 ポストダイヤモンド相探索のためのレーザー駆動反響ショック実験

2025 - 2025 International School on High Pressure Science and Technology (AIRAPT School 2025)

2025 - 2025 レーザー誘起微小爆発による超高密度水素の合成

2025 - 2025 ベッセルビーム微小爆発による透明結晶内部での高圧物質凍結に関する研究

2025 - 2025 Time-resolved phase evolution of shocked bridgmanite and its recovery dynamics

2025 - 2025 Characterization of MHD turbulence spectrum in the laboratory

2025 - 2025 Exploring High-Pressure Phase Transitions of Brucite Mg(OH)2 through In-Situ X-ray Diffraction: Implications for Earth's Deep Water Cycle and Water Worlds

2025 - 2025 X線散乱分光とXRDを組み合わせた金属シリコンおよびSiO2に関する研究

2022 - 2025 レーザーショック超高圧状態におけるメゾスケール物質構造の影響

2020 - 2025 Study on high-pressure states of hydride using high power laser

2024 - 2025 Isostructural transformation in laser shocked cobalt by in-situ X-ray diffraction and small-angle x-ray scattering

2024 - 2025 Investigating material response to laser imprint for inertial fusion applications

2024 - 2025 Modeling of the mixing induced by shear instabilities using ns lasers II

2024 - 2025 Memory effect in shock-induced amorphization of feldspar minerals

2024 - 2025 Properties of porous material under shock compression using Phase contrast Ultra High Resolution X-ray imaging technique.

2024 - 2025 炭素-酸素-水素3元系の高エネルギー密度状態の解明

2023 - 2024 Spectroscopic observation of planetary materials under shock compression using an X-ray free electron laser

2022 - 2024 X線自由電子レーザーを用いた超高圧下惑星物質の分光診断

2018 - 2022 Synthesis of novel oxynitride materials based on high-pressure technique and material analysis using quantum beam

2019 - 2021 Direct observation of structures of super-dense carbon

2017 - 2021 Pioneering gigabar science

2018 - 2020 ハイパワーレーザーショックとXFELを用いた溶融鉄合金の総合的理解

2016 - 2020 Physics on creation of long-range order structure and formation of macroscale pattern under dynamic high pressures

2016 - 2018 ハイパワーレーザー衝撃圧縮を用いた溶融鉄合金の輸送特性解明

2015 - 2018 Generation and observation of anomalous lattice dynamics at extreme compression

2010 - 2015 Study of Creation and Freezing Mechanisms of High Energy Density Solid Stats

2010 - 2014 X-ray scattering diagnostics of chemical processes in compound and mixture under solid-plasma transition

2011 - 2013 Off-Hugoniot Measurement of Quartz at Extremely Hight Pressure

2009 - 2011 Collisionless shock generation using high-power laser produced super-sonic plasma jet

2008 - 2009 超高強度レーザープロトンによる高密度プラズマアクティブ診断法に関する研究

2008 - 2009 静・動ハイブリッド圧縮法による極限環境生成と惑星・材料科学への展開

2006 - 2009 Study of Fast Random Phenomena Using Multi-Frame X-ray Sources with Ultra Intense Laser

2006 - 2008 Specific heat ratio control under laser-driven ultra-high pressures towards novel materials generation

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Papers (272)：

P. G. Heighway, D. J. Peake, T. Stevens, J. S. Wark, B. Albertazzi, S. J. Ali, L. Antonelli, M. R. Armstrong, C. Baehtz, O. B. Ball, et al. X-ray thermal diffuse scattering as a texture-robust temperature diagnostic for dynamically compressed solids. Journal of Applied Physics. 2025. 138. 15. 155903
K. Rani, N. Ozaki, K. Hashimoto, R. Kodama, Y. Miyake, H. Nakamura, H. Nagatomo. Predicting laser-induced surface modifications on metals in laser surface processing using a hybrid deep learning approach. Optics Continuum. 2025. 4. 8. 1967-1967
Nicholas J. Hartley, James Baxter, Scott Curtis, Okhura Daisuke, Aliaksei Halavanau, Abigail H. Carpenter, Janita Hussain, Taito Osaka, Norimasa Ozaki, Richard L. Sandberg, et al. X-ray parametric down-conversion at an XFEL. Optica. 2025. 12. 7. 961-967
A. Descamps, T. M. Hutchinson, R. Briggs, E. E. McBride, M. Millot, T. Michelat, J. H. Eggert, B. Albertazzi, L. Antonelli, M. R. Armstrong, et al. Calibration and characterization of the line-VISAR diagnostic at the HED-HIBEF instrument at the European XFEL. Review of Scientific Instruments. 2025. 96. 7. 075206
M.A. Vincenti, R.M. Montereali, E. Nichelatti, V. Nigro, M. Piccinini, M. Koenig, P. Mabey, G. Rigon, H.J. Dabrowski, Y. Benkadoum, et al. Radiation-induced photoluminescent colour centres in lithium fluoride films for the detection of monochromatic hard X-rays. Journal of Instrumentation. 2025. 20. 07. C07001-C07001

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MISC (256)：

村山大輔, 大村訓史, 竹歳加偉, 尾崎典雅. WDM 物性研究における第一原理分子動力学計算. プラズマ・核融合学会誌. 2025. 101. 8
片桐健登, 尾崎典雅. レーザ照射によるプラスチック中のダイヤモンド粒子生成. レーザ加工学会誌. 2024. 31. 1
尾崎典雅, 尾崎典雅, 小寺康博, 片桐健登, 梅田悠平, 知場一航, 中川聖基, 政岡豪流, 奥地拓生, 入舩徹男, et al. ナノ秒衝撃圧縮過程における物性と結晶粒サイズ効果. 大阪大学レーザー科学研究所共同利用・共同研究成果報告書(Web). 2024. 2023
Study on planetary materials under extreme conditions by shock compression method. 日本物理学会講演概要集(CD-ROM). 2024. 79. 1
Experimental study on planetary materials under high pressure conditions using laser shock technique. KURNS-EKR (Web). 2022. 15

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Books (6)：

宇宙ビジネスとスペースデブリ対策
エヌ・ティー・エス 2025
Ultrafast laser nanostructuring : the pursuit of extreme scales
Springer 2023 ISBN:9783031147517
高圧力の科学・技術事典
朝倉書店 2022 ISBN:9784254102970
Fracture in Grass under Impact of Flyer Aecelerated by Laser Induced Shock Waves
Proceedings of the 3rd International Symposium on Impact Engineering 1999
Laser Driven Multi-Layered Flyers for High Pressure Equation of State Studies
AIRAPT-17, Tu-IM-5 1999

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Lectures and oral presentations (123)：

Microscopic diffusion mechanisms in double superionicity composed of C-H-N-O planetary ice
(9th International Conference on High Pressure Science and Technology (AIRAPT-29) 2025)
Measuring off-Hugoniot states of diamond based on reverberation shock method
(9th International Conference on High Pressure Science and Technology (AIRAPT-29) 2025)
Laser-Driven Shock Compression of Nano-crystalline Sapphire
(9th International Conference on High Pressure Science and Technology (AIRAPT-29) 2025)
Investigation of spin transition in laser shock compressed Fe2O3
(9th International Conference on High Pressure Science and Technology (AIRAPT-29) 2025)
Microscopic diffusion mechanisms in double superionicity composed of C-H-N-O planetary ice
(9th International Conference on High Pressure Science and Technology (AIRAPT-29) 2025)

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Works (6)：

超高強度レーザー励起マルチフレーム点エックスによる高速ランダム過渡現象の理解
2008 -
プリコンプレスターゲットとレーザー誘起衝撃波を用いたオフユゴニオ計測実験
2007 -
高強度レーザー駆動衝撃圧縮による新奇非平衡物質創製
2007 -
レーザー誘起衝撃波を用いたオフユゴニオ計測実験
2006 -
レーザー衝撃圧縮下の比熱比γコントロールと新物質創成
2006 -

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Education (3)：

1999 - 2002 Osaka University Graduate School of Engineering
1997 - 1999 Osaka University Graduate School of Engineering
- 1997 Osaka University School of Engineering

Professional career (1)：

Doctor of Engineering (The University of Osaka)

Work history (2)：

2016 - 現在 The University of Osaka Graduate School of Engineering
2008 - 2016 The University of Osaka Graduate School of Engineering

Committee career (11)：

2023/04 - 現在東京大学アト秒レーザー科学研究機構連携協議会分科会委員
2023 - 現在 Matter and Radiation at Extremes, American Institute of Physics Editorial Board Member
2015/06 - 現在 Workshop on Warm Dense Matter Scientific Organizing Committee
2025/04 - 2026/03 国立研究開発法人理化学研究所客員研究員
2024/04 - 2026/03 衝撃波研究会研究会幹事

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Awards (6)：

2025/04 - 株式会社ニコンソリューションズ NIKON JOICOアワード特別賞ダイヤモンドを遷音速伝搬する結晶欠陥
2022/05 - 一般財団法人レーザー学会レーザー学会業績賞(論文賞) 高強度レーザーとX線自由電子レーザーによる炭酸塩鉱物天体衝突再現実験
2019/07 - PPCF Dendy Europe-Asia Pacific Award for Outstanding Research Collaboration in Plasma Physics
2015/05 - レーザー学会レーザー学会奨励賞
2007/12 - The Daiwa Anglo-Japanese Foundation Daiwa-Adrian Prize

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Association Membership(s) (8)：

日本高圧力学会 , アメリカ物理学会 , 日本物理学会 , The Physical Society of Japan , The Japan Society of High Pressure Science and Technology , 日本地球惑星科学連合 , レーザー学会 , プラズマ・核融合学会

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