Teshigawara Makoto

テシガワラマコト | Teshigawara Makoto

Research field (1)： Quantum beam science

Papers (87)：

Makoto Teshigawara, Yujiro Ikeda, Mingfei Yan, Kazuo Muramatsu, Koichi Sutani, Masafumi Fukuzumi, Yohei Noda, Satoshi Koizumi, Koichi Saruta, Yoshie Otake. New Material Exploration to Enhance Neutron Intensity below Cold Neutrons: Nanosized Graphene Flower Aggregation. Nanomaterials (Basel, Switzerland). 2022. 13. 1
Yujiro Ikeda, Makoto Teshigawara, Mingfei Yan, Chihiro Iwamoto, Kunihiro Fujita, Yutaka Abe, Yasuo Wakabayashi, Atsushi Taketani, Takaoki Takanashi, M. Harada, et al. Experimental validation of cold neutron source performance with mesitylene moderator installed at RANS. JOURNAL OF NEUTRON RESEARCH. 2022. 24. 3-4. 373-383
Yamasaki Kazuhiko*, Kato Hironori*, Futakawa Masatoshi, Teshigawara Makoto. Nanosecond laser-induced coloration of radiation resistant lead glasses. Jikken Rikigaku. 2021. 21. 4. 308-313
Masahide Harada, Makoto Teshigawara, Motoki Ooi, Kenichi Oikawa, Hiroshi Takada, Yujiro Ikeda. Experimental characterization of high-energy component in extracted pulsed neutrons at the J-PARC spallation neutron source. NUCLEAR INSTRUMENTS & METHODS IN PHYSICS RESEARCH SECTION A-ACCELERATORS SPECTROMETERS DETECTORS AND ASSOCIATED EQUIPMENT. 2021. 1000
Baolong Ma, Makoto Teshigawara, Yasuo Wakabayashi, Mingfei Yan, Takao Hashiguchi, Yutaka Yamagata, Sheng Wang, Yujiro Ikeda, Yoshie Otake. Optimization of a slab geometry type cold neutron moderator for RIKEN accelerator-driven compact neutron source. Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment. 2021. 995. 165079-165079

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MISC (45)：

Naoe Takashi, Wakui Takashi, Kinoshita Hidetaka, Kogawa Hiroyuki, Teshigawara Makoto, Haga Katsuhiro. Technical note for the cavitation damage inspection for interior surface of the mercury target vessel, 2; Damage depth measurement for cavitation erosion. JAEA-Technology 2023-022. 2024. 81
楠本利行, 猿田晃一, 直江崇, 勅使河原誠, 二川正敏, 長谷川和男, 坪井昭彦. Application of Machine Learning to Spattering Phenomena in Laser Cutting. 実験力学. 2023. 23. 4
Teshigawara Makoto, Nakamura Mitsutaka, Kinsho Michikazu, Soyama Kazuhiko. Current status and upgrading strategies of J-PARC Materials and Life Science Experimental Facility (MLF) and related components. JAEA-Technology 2021-022. 2022. 2021-022. 208
原田正英, 安部豊, 及川健一, 川崎卓郎, 河村聖子, 中島健次, 稲村泰弘, 高橋竜太, 勅使河原誠, 大井元貴, et al. Measurement of cross sections for Hydrogenous materials. 量子ビームサイエンスフェスタ(Web). 2021. 2020
原田正英, 勅使河原誠, 大井元貴, 及川健一. Performance of the high intense spallation neutron source. 日本物理学会講演概要集(CD-ROM). 2021. 76. 1

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Patents (7)：

炭素構造体
CARBON STRUCTURE
CARBON STRUCTURE
CARBON STRUCTURE
加工装置および加工装置の制御方法

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Lectures and oral presentations (59)：

Measurement of cross sections for hydrogenous materials
(2023年度量子ビームサイエンスフェスタ; 第15回MLFシンポジウム, 第41回PFシンポジウム)
Updates on the operation of the MLF neutron target at J-PARC and perspectives for future operation
(8th High Power Targetry Workshop (HPTW2023))
Present status of cavitaion damage mitigation techiques for the mercury target veesel of J-PARC pulsed spallation neutron source
(8th High Power Targetry Workshop (HPTW2023))
Development of boron-containing Al-based thermal neutron absorber for MW class neutron source
(日本中性子科学会第23回年会(JSNS2023))
Development of thermal neutron absorber material based on boron using distributed pre-decoupler effect for spallation neutron source of J-PARC
(2022年度量子ビームサイエンスフェスタ; 第14回MLFシンポジウム/第40回PFシンポジウム)

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