I guide researches on edge and divertor plasma physics and plasma-wall interactions in fusion devices. The researches are mainly conducted by using the Large Helical Device (LHD). I am conducting international collaborative researches on these research fields, and students can also join the researches.
|Course||Division of Fusion System|
|Affiliation||Fusion Systems Research Division|
|Department||High Heat Flux Plasma Facing Materials Research Section|
|Degree||Doctor of Engineering|
|Works||-S. Masuzaki, T. Otsuka, K. Ogawa, M. Yajima, M. Tokitani, Q. Zhou, M. Isobe, Y. Oya, N. Yoshida, Y. Nobuta and LHD Experiment Group, Investigation of Remaining Tritium in the LHD Vacuum Vessel after the First Deuterium Experimental Campaign, Physica Scripta, T171 (2020) 014068 (8pp)
-S. Masuzaki, H. Tanaka, M. Kobayashi, G. Kawamura and the LHD Experiment Group Effects of Drifts on Divertor Plasma Transport in LHD, Nuclear Materials and Energy, 18 (2019) 281-284.
-S. Masuzaki, M. Tokitani, T Otsuka, Y Oya, Y Hatano, M Miyamoto, R Sakamoto, N Ashikawa, S Sakurada, Y Uemura, K Azuma, K Yumizuru, M Oyaizu, T Suzuki, H Kurotaki, D Hamaguchi, K Isobe, N Asakura, A Widdowson, K Heinola, S Jachmich, M Rubel and JET contributors, Analyses of Micro-Structure, Composition and Retention of Hydrogen Isotopes in Divertor Tiles of JET with the ITER-Like Wall, Physica Scripta, T170 (2017) 014031 (7pp).
|Responsible course||Special Lecture: " Exercise for the material processing and analysis (Basic exercise on physics and engineering II) "|
|Keyword||edge and divertor plasma physics, plasma-wall interactions|