24P-1 |
Study on Beam Characteristics of 35 MeV Linac at NERL Univ. of Tokyo 東大35MeVライナックのビーム特性 H. Kobayashi, H. Ohashi, T. Ueda, T. Kobayashi, M. Kishimoto, C. Tsukishima, Y. Tabata (Nuclear Engineering Research Laboratory, Faculty of Engineering, University of Tokyo) |
p.1 |
24P-2 |
Status of the JAERI Linac 原研リニアックの現状 K. Mashiko, Y. Nobusaka, T. Shoji, N. Ishizaki, Y. Kawarasaki (Department of Physics, JAERI) |
p.4 |
24P-3 |
Status of the Microwave Source of the Photon Factory Injector Linac 放射光実験施設入射器ライナック・RF源の現状 S. Fukuda, S. Anami, Y. Saito, T. Shidara, H. Hanaki, N. Matsuda, H. Honma, K. Nakao. G. Horikoshi (National Laboratory for High Energy Physics) |
p.7 |
24P-4 |
Construction of the 35 MeV DSM at Nihon University 日大35MeVダブルサイデッドマイクロトロンの建設 K. Hayakawa, K. Sato, T. Tanaka, O. Takeda (Atomic Energy Research Inst., Nihon University) |
p.10 |
24P-5 |
Present Status of the Tokyo Institute of Technology Heavy-Ion Linac System Eiichi Arai (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology) |
p.13 |
24P-6 |
The Synchronous Operation of the Tokyo Institute of Technology Linear Accelerator System 東京工業大学線形加速器システムの同期運転及び同期加速 Y. Aoki, K. Satoh, T. Hattori, E. Arai (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology.) |
p.16 |
24P-7 |
Proton RFQ Linac of Kyoto Univ. 京大陽子RFQについて M. Sawamura, H. Okamoto, Y. Iwashita, K. Fukunaga, M. Inoue, H. Takekoshi (Institute for Chemical Research, Kyoto University) |
p.19 |
24P-8 |
Status and Future of Linac Applications in the U.S.A. 米国におけるリニアック応用の現状と将来 Eiji Tanabe (Advanced Electronics Technology Associates, Inc.) |
p.22 |
24P-9 |
Present Status of the Tohoku Linac 東北大リニアックの現状 Shigekazu Urasawa, Masayuki Oyamada, Masakatsu Mutoh, Akira Kurihara, Shigenobu Takahashi, Yoshinobu Shibasaki (Laboratory of Nuclear Science, Tohoku University) |
p.25 |
24P-10ST 特別講演 |
Current Status and Development of High—Tc Oxide Superconductors 高温超伝導酸化物開発の現状 K. Kishio, T. Hasegawa, K. Kitazawa, K. Fueki (Department of Industrial Chemistry Faculty of Engineering, University of Tokyo) |
p.28 |
24P-11 |
Development of JAERI-Tandem Superconducting Booster S. Takeuchi, T. Ishii, H. Ikezoe, M. Ohkubo (Japan Atomic Energy Research Institute, Tokai Establishment) |
p.36 |
24P-12 |
Prolongation of Electrolytic Polishing Solution Used for Superconducting Cavity K. Tajiri, M. Jinno, K. Inoue, Y. Kojima*, K. Saito*, H. Nomura** (Nagoya Aircraft Works, Mitsubishi Heavy Industries,Ltd., *National Laboratory for High Energy Physics (KEK), **Nomura Plating Company, Ltd.) |
p.39 |
24P-13 |
Test of High-Tc Superconductor in a 2.7 GHz RF Cavity 高温超伝導材の2.7GHz空胴でのテスト Makio Ohkubo, Eisuke Minehara, Suehiro Takeuchi, Yuuki Kawarasaki, Susumu Katano, Saburo Takamura, Teruo Katoh, Mitsuo Watanabe, Hiroshi Naramoto, Yukio Kazumata (Department of Physics, Japan Atomic Energy Research Institute) |
p.42 |
24P-14 |
Beam Profile Monitor for Scanning Electron Beam スキャンビーム照射のためのビームプロフィールモニタ R. Taniguchi, K. Kawabata, K. Yamasita* (Radiation Center of Osaka Prefecture, *Cosmo Riken Ltd.) |
p.44 |
24P-15 |
Measurement of Electron Beam Characteristics of Linear Electron Accelerator by Slot Antennas スロットアンテナによる電子線加速器ビームの測定 T. Yoshida, T. Enoto, H. Tanida, K. Satoh, A. Endoh* (45MeV Electron Linac Research Laboratory, Department of Nuclear Engineering, Faculty of Engineering, Hokkaido University, *Sony Corporation) |
p.47 |
24P-16 |
Measurement of Beam Profile by Using Image Processor スクリーンモニターの画像処理によるビームプロファイルの計測 T. Ueda, H. Kobayashi, T. Kobayashi, Y. Tabata (Nuclear Engineering Research Laboratory, Faculty of Engineering, University of Tokyo) |
p.50 |
24P-17 |
Real Time Bunch Shape Monitor リアルタイム・バンチ波形モニター T. Hori, S. Takeda, K. Tsumori, N. Kimuta, T. Yamamoto, T. Sawai, T. Okada (Radiation Laboratory, the Institute of Scientific and Industrial Research, Osaka University) |
p.54 |
24P-18 |
Observation of the Positron Bunch by a Streak Camera ストリークカメラによる陽電子ビームのパンチの観測 I. Sato, K. Nakahara, A. Enomoto, T. Urano, S. Ohsawa, Y. Ogawa, Y. Otake, T. Oogoe, K. Kakihara (National Laboratory for High Energy Physics) |
p.57 |
24P-19 |
Pre Buncher and Buncher Control System for the KEK PF Electron Linac PF リニアック・プレバンチャー・バンチャーの計算機制御 M. Yokota, I. Abe, Y. Ogawa, S. Ohsawa, A. Asami (National Laboratory for High Energy Physics) |
p.60 |
24P-20 |
Interlock System Using a Personal Computer パソコンを使用したリニアックインターロック回路 T. Shoji (Department of Physics, JAERI) |
p.63 |
24P-21 |
Data Logging System of Todai 35MeV Linac 東大35MeVライナックにおけるデータロガーシステム T. Kobayashi, T. Ueda, H. Kobayashi, Y. Tabata (Nuclear Engineering Research Laboratory, Faculty of Engineering, University of Tokyo) |
p.66 |
25A-1ST 特別講演 |
Present Status of R & D Study for Linear Collider in Japan 高田 耕治(KEK) |
p.69 |
25A-2 |
RF Breakdown Studies on an S-Band Disk Loaded Structure H. Matsumoto, Y. Fukushima, S. Horiba*, G. Horikoshi, Y. Kinmura, H. Mizuno, Y. Saito, I. Sato, T. Shidara, K. Takata, S. Takeda**, N. Terabayashi*, Y. Yamazaki, M. Yoshioka*** (KEK, National Laboratory for High Energy Physics, *Mitsubishi Heavy Industries Ltd., **Institute of Scientific and Industrial Research, Osaka University, ***Institute for Nuclear Study, University of Tokyo) |
p.74 |
25A-3 |
Development of High Power Klystron System T. Shidara, Linear Collider Study Group (National Laboratory for High Energy Physics) |
p.77 |
25A-4 |
Manufacturing of the APS Cavity for TRISTAN MR A. Takahashi*, K. Takada, Y. Yamazaki, H. Mizuno, T. Kageyama, Y. Morozomi, M. Akemoto, T. Higo (National Laboratory for High Eenergy Physics, *Mitsubishi Heavy Industries Ltd.) |
p.80 |
25A-5 |
Fabrication and RF Measurements of 3-Cell Single Cavity シングルセル空洞”モデル空洞の設計、試作と試験結果” S. Machida, Z. Igarashi, C. Kubota,Y. Mori, S.Fukumoto, T. Iwata*, M. Hamaoka* (National Laboratory for High Energy Phisics, *Mitsubishi Heavy Industries Ltd. Mihara Works) |
p.83 |
25A-6 |
The Performance of a 3-Cell APS Cavity at High Power Operation Part I T. Kageyama, M. Akemoto, H. Mizuno, Y. Morozumi, H. Sakai, Y. Yamazaki, K. Takata (National Laboratory for High Energy Physics) |
p.86 |
25A-7 |
The Performance of 3-Cell APS Cavity at High Power Operation Part 2 3-cell APS 加速空胴の大電力特性 PART 2 H. Mizuno, T. Kageyama, M. Akemoto, Y. Morozumi, H. Sakai, Y. Yamazaki, K. Takata (Nationat Laboratory for High Energy Physics) |
p.89 |
25A-8 |
Higher Order Mode Coupler for TRISTAN Accelerating Cavity Y. Morozumi, T. Higo, Y. Yamazaki (National Laboratory for High Energy Physics) |
p.92 |
25A-9 |
An Analysis on the IH-Type Cavity with Numerical Methods 数値計算を用いたIH型空洞の解析 K. Satoh, S. Kamohara, T. Hattori, E. Arai (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology) |
p.95 |
25A-10 |
The Possibility of IH-Linac in Medium - High Energy Region by the Equivalent Cirquit Method 等価回路計算によるIH型線形加速器の可能性 S. Kamohara, Y. Takahashi, K. Sato, T. Hattori, E. Arai (Research Laboratory for Nuclear Reactors, Tokyo Institute of Tecnology.) |
p.98 |
25A-11 |
Development of IHQ Linac (III) -2 MeV Proton Prototype Linac- H. Suzuki*, T. Hattori, H. Muto, T. Fukushima** (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology, *National Institute of Radiological Sciences, **Institute for Nuclear Study, University of Tokyo) |
p.101 |
25A-12 |
Multiple Frequency Accelerating Cavity 多重周波数加速空胴 Makio Ohkubo (Division of Physics, Japan Atomic Energy Research Institute) |
p.104 |
25P-1 |
Slow—Positron Facility at the Electrotechnical Laboratory [I] 電総研低速陽電子研究施設[I] Tomohisa Mikado, Ryoichi Suzuki, Mitsukuni Chiwaki, Masayoshi Ogura*, Tetsuo Yamazaki, Takeshi Nakamura, Suguru Sugiyama, Tsutomu Noguchi, Nobuyuki Hayashi, Takio Tomimasu (Quantum Technology Division, Electrotechnical Laboratory, *Sanyo Tsukuba Research Center) |
p.107 |
25P-2 |
Production of Intense Monochromatic Positron Beams Using an Electron Linac Y. Ito, Y. Hirata*, O. Sueoka**, M. Hasegawa***, S. Takamura****, Y. Tabata* (Research Center for Nuclear Science and Technology, UT, *Nuclear Science Research Laboratory, Faculty of Engineering, UT, **Institute of Physics, College of Arts and Sciences, UT, ***Institute for Materials Research, Tohoku University, ****Physics Department, JAERI) |
p.110 |
25P-3 |
The Transmission Efficiency of the Neutron Guide Tube with Alignment Errors 中性子導管の設置誤差が中性子透過特性に及ぼず影響 Y. Kawabata, M. Suzuki, M. Kudo, H. Takahashi, M. Sakamoto* (Department of Research Reactor Operation, Japan Atomic Energy Research Institute, *Department of Physics, Japan Atomic Energy Research Institute) |
p.113 |
25P-4 |
Low-Temperature Electron Irradiation Chamber 電子線照射用極低温チャンバー T. Kato, M. Watanabe, A. Iwase, T. Iwata (Japan Atomic Energy Research Institute) |
p.117 |
25P-5 |
An Experimental Study on Free Electron Laser at JAERI Linac 原研リニアックによる自由電子レーザー(FEL)実験 K, Mashiko, Y. Kawarasaki, M. Ohkubo, M. Mizumoto, Y. Nobusaka, N. Ishizaki, H. Ohashi*, H. Kobayashi*, T. Ueda*, T. Kobayashi*, C. Tsukishima*, S, Kondo* (Department of Physics, JAERI, *Faculity of Engineering, University of Tokyo) |
p.120 |
25P-6 |
Design and Operation Characteristics of RF Linac Free Electron Laser 線型加速器自由電子レーザー実験と発振特性 H. Ohashi, R. Hashima, M. Kishimoto, H. Kobayashi, S. Kondo (Nuclear Engineering Research Laboratory, Faculty of Engineering, University of Tokyo) 大橋 弘忠,羽島 良一,岸本 牧,小林 仁,近藤 駿介(東京大学工学部附属原子力工学研究施設) |
p.123 |
25P-7 |
Acceleration Characteristics of RFQ Linac 'TALL' RFQライナック'TALL'の加速特性 K. Sawada, N. Ueda, S. Yamada* (Institute for Nuclear Study, University of Tokyo, *National Institute of Radiological Science) |
p.126 |
25P-8 |
Energy Spectra of Electron Beam at the KEK 2.5 GeV Linac KEK電子ライナックビームのエネルギースぺクトル T. Mitsuhashi, T. Urano, T. Katsura, K. Haga, A. Enomoto, H. Hanaki, S. Ohsawa (National Laboratory for High Energy Physics) |
p.129 |
25P-9 |
Improvements of the Positron Focusing System 陽電子発生装置集束系の改造 A. Enomoto, T. Oogoe, K. Kakihara, I. Sato, A. Asami, J. Tanaka (National Laboratory for High Energy Physics) |
p.132 |
25P-10 |
High Gradient Acceleration by Recirculator 還流型による高電界加速 I. Sato, K. Nakahara, S. Anami, S. Fukuda, A. Enomoto, S. Ohsawa, H. Hanaki, Y. Ogawa, K. Furukawa, T. Oogoe, K. Kakihara, N. Yamaguchi*, K. Inoue*,Y. Iino*, K. Taki*, Y. Kamouchi*, S. Tsuchiya*, S. Fujie* (National Labratory for High Energy Physics, *Mitsubishi Heavy Industories, Ltd.) |
p.135 |
25P-11 |
Bending Magnets for the Double-Sided Microtron ダブルサイデッドマイクロトロンの偏向電磁石の製作 T. Tanaka, K. Sato, K. Hayakawa, O. Takeda (Atomic Energy Research Institute, Nihon University) |
p.138 |
25P-12 |
An Avalanche Pulser for Single Bunch Beam シングルバンチビーム用アバランシェパルサー Y. Hosono, K. Hasegawa, T. Ueda, C. Nakano* (Faculty of Engineering , University of Tokyo, *Research Center for Nuclear Sciense and Technology, University of Tokyo) |
p.141 |
25P-13 |
Grid Pulser Utilized a Hybrid IC for an Electron Gun ハイブリッドICを利用した電子銃用グリッドパルサー Y. Otake, S. Ohsawa, Y. Ogawa, K. Nakahara, A. Asami (National Laboratory for High Energy Physics) |
p.144 |
25P-14 |
Life Test of the High Output Avalanche Pulser 高出力アバランシェ・パルサーのライフテスト K. Tsumori, S. Suemine*, T. Okada (Radiation Laboratory, the Institute of Scientific and Industrial Research, Osaka University, *Unioon System Co., Ltd.) |
p.147 |
25P-15 |
Input Impedance of the Grid-Cathode Assembly of a Sub-Nanosecond Electron Gun -Numeric Analysis- サブナノ秒電子銃のグリッドインピーダンスの数値解析 H. Yamazaki, A. Homma (Department of Nuclear Engineering, Faculty of Engineering, Hokkaido University) |
p.150 |
25P-16 |
Input Impedance Measurement of Grid-Cathode Assembly of Electron Gun サブナノ秒電子銃のグリッドインピーダンスの測定 Akira Homma, Hatsuo Yamazaki, Eiichi Kishimoto (Department of Nuclear Engineering, Hokkaido University) |
p.153 |
25P-17 |
Characteristics of a Compact ECR Ion Source 小型ECRイオン源の動作特性 E. Tojyo, T. Hattori* (Institute for Nuclear Study, University of Tokyo, *Tokyo Institute of Technology) |
p.156 |
26A-1 |
Linac for a Free-Elcetron-Laser Oscillator; Design Consideration on the Injector System Y. Kawarasaki, M. Ohkubo, N. Shikazono, K. Mashiko (Department of Physics, JAERI) |
p.159 |
26A-2 |
Acceleration Characteristics of the Positron Generator Injector 陽電子発生装置入射部の特性 A. Asami, S. Ohsawa, Y. Ogawa, A. Enomoto, S. Anami, M. Yokota, I. Sato, H. Iwata*, O. Azuma* (National Laboratory for High Energy Physics, *Isikawajima-Harima Heavy Industries Co., Ltd.) |
p.162 |
26A-3 |
Electron Gun for KEK e+ Linac (III) KEK e+リニアックの電子銃(Ⅲ) Y. Ogawa, S. Fukuda, Y. Otake, M. Yokota, S. Ohsawa, H. Iwata*, A. Asami (National Laboratory for High Energy Physics, *Ishikawajima-Harima Heavy Industries Co., Ltd) |
p.165 |
26A-4 |
Alterations in the System of the Electon Gun for KEK e- Linac PFリニアック電子銃部の改造 S. Ohsawa, O. Azuma*, Y. Saito, A. Enomoto, Y. Ogawa, M. Yokota, A. Asami (National Laboratory for High Energy Physics, *Ishikawajima-Harima Heavy Industries Co., Ltd.) |
p.168 |
26A-5 |
Improvement of the Vacuum System for the PF Linac Electron Gun PFリニアック電子銃部真空系の改造 O. Azuma*, S. Ohsawa, Y. Ogawa, M Yokota, Y. Salto, A. Asami (National Laboratory for High Energy Physics, *Ishikawajima-Harima Heavy Industries Co., Ltd.) |
p.171 |
26A-6 |
Simulation of Beam Behavior with PARMELA for the Positron Generator Injector 計算コードPARMELA による陽電子発生装置入射部のBeam Dynamics H. Iwata, Y. Ogawa*, S. Ohsawa*, S. Fukuda*, A. Enomoto*, M. Yokota*, A. Asami* (Isikawajima-Harima Heavy Industries Co., Ltd., *National Laboratory for High Energy Physics) |
p.174 |
26A-7 |
Phase Control at the KEK Electron Linac KEK電子リニアックにおける位相制御 H. Hanaki, Y. Otake, Y. Saito, S. Anami, G. Horikoshi (National Laboratory for High Energy Physics) |
p.177 |
26A-8 |
Improvements in the Klystron Modulators of the PF Linac 放射光施設入射器高周波源の高圧電源における改造 H. Honma, S. Anami, S. Fukuda, T. Shidara, Y. Saito, H. Hanaki, N. Matuda, K. Nakao, H. Katagiri, G. Horikoshi (National Laboratory for High Energy Physics) |
p.180 |
26A-9 |
Development of Finite Element Code RAMAX for the Analysis of 3-D Electromagnetic Resonant Field 3次元共鳴電磁場解析コードRAMAXの開発 Yasuyuki Miyauchi, G-W. Ye*, Genki Yagawa* (Advanced Technology, Development Dept., Ishikawajima-Harima Heavy Industries Co., Ltd., *Faculty of Nuclear Eng., University of Tokyo) |
p.183 |
26A-10 |
電子リニアック用パルスクライストロンの高能率化 冨増 多喜夫,門野 欽一*,小倉 浩一*,山崎 豪雄*,岡本 正*,細井 真理*,三宅 節雄*,㽗村 幸夫*(電総研,*東芝) |
p.188 |
26A-11 |
Monitoring System for Klystron RF Outputs クライス卜ロン出力の監視 K. Furukawa, H. Hanaki (National Laboratory for High Energy Physics) |
p.193 |
26A-12 |
Study of Lasertron M. Yoshioka (Linear Collider Study Group, Institute for Nuclear Study, University of Tokyo) |
p.195 |
26A-13 |
Laser System for Lasertron レーザトロン用レーザ装置 M. Miyakawa, T. Harada, H. Imoto, J. Komatsu ,T. Yakuo, T. Shintake*, H. Matsumoto*, T. Shidara*, M. Yoshioka ** (NEC Corp. Guidance and Electro-Optics Division, *National Laboratry for High Energy Physics (KEK), **Institute for Nuclear Study, University of Tokyo) |
p.198 |
26P-1 |
1 GeV Proton Linac 1 GeV陽子リニアック T. Kato (National Laboratory for High Energy Physics) |
p.201 |
26P-2 |
Proton Linac of Traveling Wave Type 進行波型陽子線形加速器 I. Sato (National Labratory for High Energy Physics) |
p.204 |
26P-3 |
The Project of Tohoku University Multi-Purpose Ring for Pulse Strethcer and Storage Ring 東北大学共用リング計画 T. Tamae (Laboratory of Nuclear Science, Tohoku University) |
p.208 |
26P-4 |
Construction of the 145 MeV High Gradient Acceleration Electron Linac 145MeV 高電界型Sバンド電子ライナックの建設 K. Tsumori, S. Takada, J, Okuma, T. Sawai, N. Kimura, T. Yamamoto, T. Hori, S. Suemine*, T. Okada (Radiation Laboratory, the Institute of Scientific and Industrial Research, Osaka University, *Unicon System Co., Ltd.) |
p.211 |
26P-5 |
Positron Factory Research Plan at JAERI 原研におけるポジトロンファクトリー研究計画 S. Okada (Takasaki Radiation Chemistry Research Establishment, Japan Atomic Energy Research Institute (JAERI)) |
p.214 |
26P-6 |
High-Power Beam Linac Project at Tokyo Institute of Technology 高出力粒子応用研究計画 T. Hattori (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology) |
p.217 |
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