Research field (2):
Nuclear fusion
, Basic plasma science
Research keywords (3):
プラズマ対向材
, 核融合
, プラズマ-壁相互作用
Research theme for competitive and other funds (3):
2025 - 2028 直接充電型放射線電池の概念設計
2021 - 2026 高エネルギーヘリウム照射によるプラズマ対向材のブリスター生成機構解明
2019 - 2021 高エネルギーヘリウム照射によるプラズマ対向壁の内部損傷機構の解明
Papers (8):
Yuki Uchida, Seiki Saito, Tsuneo Suzuki, Kazumasa Takahashi, Toru Sasaki, Alan Xu, Dhriti Bhattacharyya, Gordon J. Thorogood, Takashi Kikuchi. Observation of greater blister skin thickness compared with the implantation depth of high-energy helium in tungsten. Fusion Engineering and Design. 2025. 211. 114785-114785
Hiroki Takezawa, Ryuma Kigeuchi, Hibiki Umeda, Fumihiro Tamura, Yuki Uchida, Takashi Kikuchi. Preliminary Verification of the PHITS Code Applicability to Conversion Efficiency Calculation of Direct Charge Nuclear Battery. Machines. 2024. 12. 6. 395-395
Yuki Uchida, Seiki Saito, Nobuo Saito, Tsuneo Suzuki, Kazumasa Takahashi, Toru Sasaki, Takashi kikuchi, Nob. Harada. Experiment and measurement with high-energy helium irradiation to tungsten using tandem accelerator for divertor in magnetic confinement fusion system. Energy Procedia. 2017. 131. 359-362
Diffusion of helium in tungsten under temperature conditions for damage evaluation in plasma-facing materials for nuclear fusion
(The 43rd JSST Annual International Conference on Simulation Technology & The 23rd Asia Simulation Conference 2024)
Investigation of temperature distribution history by numerical analysis inside tungsten with irradiation system simulating heat load of inertial fusion output
(2024)
Surface deformation on tungsten using repeated pulse laser beam to investigate damage in wall of inertial confinement fusion
(2024)
Relationship between surface roughness of laser-irradiated mark and fluence of pulsed laser simulating damage on plasma-facing material in inertial confinement fusion reactor.
(2024)
