プラズマ理工学講座 梶田研究室

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学術論文・学会発表・講演・学位論文・書籍など

2020年以前の論文等は旧ページこちらをご覧ください。
2023

 学術論文 Updated on July. 20, 2023.

[1] Shin Kajita, Tomoki Eda, Shuangyuan Feng, Hirohiko Tanaka, Anja Bieberle-Hutter, Noriyasu Ohno, “Increased Photoelectrochemical Performance of Vanadium Oxide Thin Film by Helium Plasma Treatment with Auxiliary Molybdenum Deposition”, Adv. Energy Sustainability Res. (2023) 2200141.

[2] Q Shi, H Fujiwara, S Kajita, R Yasuhara, H Tanaka, N Ohno, H Uehara, “Structural Correlation of Random Lasing Performance in Plasma-Induced Surface-Modified Gallium Nitride”,  ACS Applied Optical Materials, 1 (2023) 412-420.
 
[3]S Feng, S Kajita, M Tokitani, D Nagata, N Ohno, “Rapid growth of nanostructure on tungsten thin film by exposure to helium plasma”, Plasma Science and Technology 25 (2023) 042001.
 
[4] H Tanaka, S Masuzaki, G Kawamura, Y Hayashi, M Kobayashi, Y Suzuki, K Mukai, S. Kajita, N Ohno, “Correlation of the Orthogonal Basis of the Core Plasma Distribution to the Divertor Footprint Distribution in LHD”, Plasma and Fusion Research 18, (2023) 2402021-2402021.
 
[5] K Hori, S Kajita, R Zhang, H Tanaka, N Ohno “Growth origin of large-scale fiberform nanostructures in He–W co-deposition environment” Scientific Reports 13 (2023), 5450.
 
[6] R Zhang, S Kajita, D Hwangbo, H Tanaka, S Feng, N Ohno, “Field emission properties of nano-tendril bundles formed via helium plasma exposure with various additional impurity gases” Materials Research Express 10 (2023), 054002.
 
[7] S Feng, H Natsume, S Kajita, E Li, R Yasuhara, M Tokitani, H Tanaka, N. Ohno, “Fabrication of tungsten-based optical diffuser using fiberform nanostructure via efficient plasma route”, Optics Express 31 (2023) 25438-25445.
 
[8] Q Xue, H Tanaka, R Zhang, S Kajita, K Hori, Q Shi, T Kuwabara, N Ohno, “Thermal response of nano-tendril bundles to steady heat load”, Japanese Journal of Applied Physics 62 (2023), SN1005
 
[9] S Kajita, T Sakakibara, H Kaizawa, H Natsume, H Tanaka, K Fujii, N Ohno, “Application of machine learning for optical emission spectroscopy data in NAGDIS-II
Fusion Engineering and Design 196, 114012″,  Fusion Engineering and Design 196, (2023)114012.
 
[10] J Shi, H Kaizawa, H Tanaka, S Kajita, N Ohno, H Ding, “Transition from MAR to EIR of deuterium plasma detachment in NAGDIS-II”, Physica Scripta 98 (2023), 115605.
 
[11] SA Barengolts, D Hwangbo, S Kajita, “Arc erosion characteristics of W-fuzz samples with different thicknesses of the nanostructured layer”, Nuclear Materials and Energy 37 (2023) 101541.

 卒業論文 Updated on March.30, 2024.

[1] 宮本景虎ケヴィン, “機械学習を活用した He プラズマ分光データによる温度密度計測の複数装置への適用”, 卒業論文, 東京大学工学部システム創成学科Bコース.