7A-1 |
Status of the JAERI Linac 原研リニアックの現状 K. Mashiko, Y. Nobusaka, T. Shoji, N. Ishizaki, H. Tayama, Y. Kawarasaki (Department of Physics, JAERI) |
p.1 |
7A-2 |
Present Status and Improvement of Twin Linac at NERL Univ. of Tokyo 東大ライナックの改修計画及び現状報告 T. Ueda, T. Kobayashi, Y. Yoshida, M. Washio, Y. Tabata (Nuclear Engineering Research Laboratory, Faculty of Engineering, University of Tokyo) |
p.5 |
7A-3 |
40 MeV Linac for the 1 GeV Synchrotron Radiation Light Source 1GeV SOR光源装置用40MeVリニアック Shiro Nakamura, Ryuichi Kitano, Masaru Shiota*, Takio Tomimasu** (SORTEC Corporation, *Mitsubishi Electric Corporation, **Electrotechnical Laboratory) |
p.9 |
7A-4 |
Property of DSM Injector Linac DSマイクロトロン入射器の特性について Toshinari Tanaka, Yoshiharu Torizuka, Kazuo Sato, Ken Hayakawa, Hisao Yatoh*, Tatsuya Iijima* (Atomic Energy Research Institute, Nihon University, *College of Science and Technology, Nihon University) |
p.13 |
7A-5 |
Construction of the 35 MeV DSM at Nihon University 日大DSマイクロトロンの現状 Ken Hayakawa, Yoshiharu Torizuka, Kazuo Sato, Toshinari Tanaka, Hisao Yatoh*, Tatsuya Iijima* (Atomic Energy Research Institute, Nihon University, *College of Science and Technology, Nihon University) |
p.16 |
7A-6 |
Present Status of the Tohoku Linac 東北大リニアックの現状 S. Urasawa, A. Kurihara, S. Takahashi, Y. Shibasaki, M. Mutoh, M. Oyamada (Laboratory of Nuclear Science, Tohoku University) |
p.19 |
7A-7 |
Improvement of the Control System for Linac Pulse Beam Stretcher at Tohoku University 東北大電子リニアック・ パルスビームストレッッチヤー制御系の改造 Masakatsu Mutoh, Yoshinobu Shibasaki, Tadahiro Oonuma (Laboratory of Nuclear Science, Tohoku University) |
p.22 |
7A-8 |
Tunable Gamma Ray Facility Using Inverse Compton Scattering at the Electrotechnical Laboratory 電総研逆コンプトン散乱γ線発生装置 Tsutomu Noguchi, Tetsuo Yamazaki, Suguru Sugiyama, Tomohisa Mikado, Mitsukuni Chiwaki, Takio Tomimasu (Quantum Technology Division, Electrotechnical Laboratory) |
p.25 |
7A-9 |
Construction of 145 MeV Electron Linac at the Osaka University 阪大145MeV電子ライナックの建設 Kunihiko Tsumori, Juzo Ohkuma, Tomikazu Sawai, Norio Kimura, Shuichi Okuda, Tamotsu Yamamoto, Toshihiko Hori, Setsuo Takamuku, Shouji Suemine* (Radiation Laboratory, The Institute of Scientific and Industrial Reseach, Osaka University, *Unicon System Co., Ltd.) |
p.28 |
7A-10 |
Optics Matching Between Beam Transport Line of Photon Factory Storage Ring and KEK 2.5 GeV Linac PFライナックとPFリング入射路のマッチング T. Mitsuhashi, M. Katoh, S. Ohsawa (National Laboratory for High Energy Physics) |
p.31 |
7P-1 |
10 kW All Solid State RF Power Amplifier Z. Igarashi, S. Fukumoto, Y. Mori, E. Takasaki (National Laboratory for High Energy Physics) |
p.34 |
7P-2 |
Power Test of High Power Coax Stub 大電力同軸スタブの耐電力試験 Atushi Kashiwagi, Shigemi Hiraoka (Technical Dept. Nihon Koshuha Co., Ltd.) |
p.37 |
7P-3 |
Status of the Microwave Source of the Photon Factory Injector Linac 放射光入射器線形加速器マイクロ波源の現状 N. Matuda, S. Anami, S. Fukuda, T. Shidara, Y. Saito, H. Hanaki, H. Honma, K. Nakao, H. Katagiri, H. Iijima, G. Horikoshi (National Laboratory for High Energy Physics) |
p.40 |
7P-4 |
Heavy Wall Waveguide for High Power Linac 大電力用厚肉導波管システム Takeshi Ohishi, Yoshio Tsuchizaki (Sumitomo Electric Industries, Ltd.) |
p.43 |
7P-5 |
High Power Operation of S-Band Klystron Hiroshi Matsumoto, Linear Collider Study Group (National Laboratory for High Energy Physics) |
p.46 |
7P-6 |
5045 Klystron Modulator 5045クライストロン用モジユレータ Mitsuo Akemoto, Tetsuo Shidara, Seishi Takeda, Linear Collider Study Group (National Laboratory for High Energy Physics) |
p.49 |
7P-7 |
Automatic Phasing System 自動位相調整システム Y. Otake, Linear Collider Study Group (National Laboratory for High Energy Physics) |
p.52 |
7P-8 |
Diode Simulation of X-Band Klystron Jun-ichi Odagiri, Linear Collider Study Group (National Laboratory for High Energy Physics) |
p.55 |
7P-9 |
ECR and Off-Resonance Performances in Compact Microwave Ion Sources 小型マイクロ波イオン源のECR動作と非共振動作 E. Tojyo, T. Hattori* (Institute for Nuclear study, University of Tokyo, *Tokyo Institute ot Technology) |
p.58 |
7P-10 |
Development of Higher Order Mode ECR (HiECR) Ion Source - Basic design and Manufacturing - 高次モードECR (HiECR) イオン源開発研究(Ⅰ) -基本設計と製作- T. Hattori, Y. Takahashi, H. Muto, E. Tojyo*, M. Sekiguchi*, K. Sawada** (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology, *Institute for Nuclear Study, University of Tokyo, **Sumitomo Heavy Industries, Ltd.) |
p.62 |
7P-11 |
Development of Proton Cusp Ion Source カスプ水素イオン源の開発 S. Takama, Y. Iwashita, M. Inoue, H. Takekoshi, S. Kakigi (Institute for Chemical Research, University of Kyoto) |
p.65 |
7P-12 |
The Status of the 40 MeV Proton Linac 40MeV陽子リニアックの現状 E. Takasaki, Z. Igarashi, K. Ikegami, T. Kato, C. Kubota, A. Takagi, T. Takenaka, K. Nanmo, S. Fukumoto, Y. Mori (National Laboratory for High Energy Physics) |
p.68 |
7P-13 |
4-Rod RFQ Proton Acceleration Test 4-Rod RFQによる陽子加速実験 Hiroshi Fujisawa, Yoshihisa Iwashita*, Hidekuni Takekoshi* (Ion Equipment Div. Nissin Electric Co., Ltd., *The Institute of Chemical Research, Kyoto Unversity) |
p.71 |
7P-14 |
Measurements of PMQ Lenses for Proton DTL 陽子DTL用PMQの測定 Hiromi Okamoto, Yoshihisa Iwashita, Hidekuni Takekoshi (Institute for Chemical Research, Kyoto University) |
p.74 |
7P-15 |
Development of IHQ Linac (IV) IHQ型線形加速器の開発研究(Ⅳ) T. Hattori, H. Suzuki*, H. Muto, T. Fukushima**, N. Ueda** (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology, *National Institute of Radiological Sciences, **Institute for Nuclear Study, University of Tokyo) |
p.77 |
7P-16 |
RF In-Coupling Loop for Heavy-Ion Linear Accelerators 重イ才ンリニアックに於ける高周波導入ループ Kohei Furuno (Institute of hysics, The Unversity of Tsukuba) |
p.80 |
7P-17 |
Schottky Signal Analysis in Linac Cavities リニアヅク空洞におけるショットキー信号の解析 Yoshiyuki Oguri, Eiichi Arai (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology) |
p.83 |
7P-18 |
TE11n Higher-Order Mode Acceleration Structure and Effective Shunt Impedance of New Structure in Medium Energy Region TE11n高次モード新型加速器構造と中エネルギー領域のシャントインピーダンス T. Hattori, A. Okamoto, Y. Takahashi, H. Muto, S. Kamohara* (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology, *Central Research Laboratory, Hitachi Ltd.) |
p.86 |
7P-19 |
Proton Acceleration Test with a SCRFQ S. Arai, T. Fukushima, T. Morimoto, E. Tojyo, N. Tokuda, M. Yoshizawa, T. Hattori* (Institute for Nuclear Study, University of Tokyo, *Tokyo Institute of Technology) |
p.90 |
8A-1 |
Design of the Electron Gun with Dispenser Cathode 電子銃の解析 H. Iwata, S. Ohsawa*, M. Yokota*, Y. Ogawa*, S. Fukuda*, A. Asami* (Ishikawajima-Harima Heavy Industries Co., Ltd., *National Laboratory for High Energy Physics) |
p.93 |
8A-2 |
Electron Gun and New Prebuncher of the PF Linac PFリニアックの電子銃の運転状況と新プレバンチャ S. Ohsawa, A. Asami, M. Yokota,Y. Ogawa, H. Iwata*, N. Yamaguchi**, K. Inoue**, Y. Iino**, H. Taki**, Y. Kamouchi**, S. Tuchiya**, S. Hujie**, S. Hujiwara** (National Laboratory for High Energy Physics, *Ishikawajima-Harima Heavy Industries Co., Ltd., **Mitubishi Heavy Industries Co., Ltd.) |
p.96 |
8A-3 |
Beam Characteristics of the Electron Gun of the Osaka University 145-MeV Linac 阪大産研145MeV ライナックの電子銃の特性 Shuichi Okuda, Kunihiko Tsumori, Shouji Suemine*, Juzo Ohkuma, Tomikazu Sawai, Norio Kimura, Tamotsu Yamamoto, Toshihiko Hori, Setsuo Takamuku (Radiation Laboratory, The Institute of Scientific and Industrial Research, Osaka University, *Unicon System Co., Ltd.) |
p.100 |
8A-4 |
High Voltage Nanosecond Pulse Generator by Using Avalanche Transistors and Pulse Transformer アバランシェ動作トランジスターとパルストランスを用いたパルス発生器 Akira Homma, Hatsuo Yamazaki, Kazuo Inaba (Department of Nuclear Engineering, Hokkaido University) |
p.103 |
8A-5 |
Fabrication of a Compact and Broadband Grid-Pulsing System 広帯域小型グリッドパルサーの製作 R. Taniguchi, K. Kawabata, K. Yamashita* (Osaka Prefecutural Radiation Research Institute, *Cosmo Riken Ltd.) |
p.106 |
8A-6 |
A Trial for a Grounded-Grid Fast Pulse Amplifier Planar Triode 板極管グリツド接地高速パルス増幅器の試作 Kiyoshi Takami (Research Reactor Institute, Kyoto University) |
p.109 |
8A-7 |
Design Study of High Voltage Electron Gun 高電圧電子銃の開発計画 Hitoshi Kobayashi, Jun-ichi Odagiri, Linear Collider Study Goup (National Laboratory for High Energy Physics) |
p.112 |
8A-8 |
An Electron Gun for JAERI-FEL Hiroshi Yoshikawa, Katsuo Mashiko* (Dept. of Elec., Waseda University, *Japan Atomic Energy Research Institute) |
p.115 |
8A-9 |
Design of the Electrode Shape of the Injection Gun for the JAERI Free Electron Laser Masayoshi Sugimoto (Department of Physics, Japan Atomic Energy Research Institute) |
p.118 |
8A-10 |
Development of a Beam Current Monitor by Using Amorphous Core アモルファスコアを用いたビーム電流モニターの開発 Toshiaki Kobayashi, Toru Ueda, Youichi Yoshida, Masakazu Washio, Yoneho Tabata (Nuclear Engineering Research Laboratory, Faculty of Engineering, University of Tokyo) |
p.121 |
8A-11 |
Multi-Energy Medical Electron Linear Accelerator Dual Photon医療用リニアック,NELAC-1018DP Chudo Kazusa (Medical Information System Division, NEC Corporation) |
p.124 |
8A-12 |
Measurment of Electron beam Distribution Depend on Microwave Tomography マイクロ波トモグラフィーによる電子ビーム分布の測定 T. Yoshida, T. Enoto, A. Endoh* (45 MeV Electron Linac Research Laboratory, Department of Nuclear Engineering, Faculty of Engineering, Hokkaido University, *SONY) |
p.127 |
8A-13 |
Study of Grid (Sieve) Irradiation Using Micro-Beams マイクロビーム放射線による篩照射法の基礎的研究 松岡 祥介,入江 五朗,榎戸 武揚*(北大医学部放射線科,*北大工学部原子工学科) |
p.130 |
8A-14 |
Transient Optical Absorbing Species Produced in Irradiated Lithium Halide Melts 被照射溶融リチウムハライド中に生成する過渡的光吸収種 Sadashi Sawamura, Jerzy L. Gebicki*, Jozef Mayer*, Jerzy Kroh*, Meiseki Katayama (Atomic Science and Nuclear Engineering, Faculty of Engineering, Hokkaido University, *Institute of Applied Radiation Chemistry, Technical University of Lodz, Poland) |
p.132 |
8P-1 |
Production and Acceleration of Positrons for PF Storage Ring 放射光リングのための陽電子ビーム発生と加速 A. Asami, S. Ohsawa, T. Urano, H. Kobayashi, M. Yokota, H. Iwata*, K. Nakahara, I. Abe, S. Anami, I. Sato, T. Yamakawa, T. Mitsuhashi, M. Kato, G. Horikoshi (National Laboratory for High Energy Physics, *Ishikawajima-Harima Heavy Industries Co., Ltd.) |
p.135 |
8P-2 |
The Vacuum and the High Voltage Control Systems for the Positron Generator Electron Gun 陽電子発生装置用の真空系と高圧ステーションの制御 M. Yokota, Y. Ogawa, Y. Otake, S. Ohsawa, A. Asami (National Laboratory for High Energy Physics) |
p.138 |
8P-3 |
Mesurements of Bunched Beam from the KEK Positron Linac ポジトロン発生用リニアックから出力されるビームのバンチ測定 Isamu Sato, Kazuo Nakahara, Satoshi Ohsawa, Atsushi Enomoto, Takao Urano, Hirofumi Hanaki, Yuji Otake, Takao Oogoe, Kazuhisa Kakihara, Akira Asami, So Fujie* (National Laboratory for High Energy Physics (KEK), *Mitsubishi Heavy Industory Co.) |
p.141 |
8P-4 |
Improvement of Positron Yield by an Increase of Electron Energy at the KEK Positron Generator 電子エネルギー増強による陽電子収率の向上 Takao Urano, Satoshi Ohsawa, Tetsuo Shidara, Kazuhisa Kakihara, Akira Asami, Gen'ichi Horikoshi (National Laboratory for High Energy Physics) |
p.144 |
8P-5 |
Positron Factory Research Plan at JAERI [II] -Subjects to be Investigated from Technical Aspects - 原研におけるポジトロンファクトリー研究計画[Ⅱ] -技術的検討課題について- Sohei Okada, Yoneho Tabata* (Takasaki Radiation Chemistry Research Establishment, Japan Atomic Energy Research Institute (JAERI), *Faculty of Engineering, University of Tokyo) |
p.147 |
8P-6 |
Slow-Positron Facility at the Electrotechnical Laboratory [II] 電総研低速陽電子研究施設[Ⅱ] Tomohisa Mikado, Ryoichi Suzuki, Mitsukuni Chiwaki, Tetsuo Yamazaki, Takio Tomimasu, Toshinobu Chiba*, Takashi Akahane*, Shoichiro Tanigawa**, Nobuhiro Shiotani*** (Quantum Technology Division, Electrotechnical Laboratory, *National Institute for Research in Inorganic Materials, ** Institute of Materials Science, The University of Tsukuba, ***The Institute of Physical and Chemical Research) |
p.152 |
8P-7IT 招待講演 |
The Generation and Application of Slow/Monoenergetic Positron Beams - Its Present Status and Future Prospects - 低速陽電子の発生と利用:現状と将来 Shoichiro Tanigawa (Institute of Materials Science, University of Tsukuba) |
p.155 |
8P-8 |
Free Electron Laser Project at JAERI 原研自由電子レーザー計画 Makio Ohkubo, Yuuki Kawarasaki, Naomoto Shikazono, Katsuo Mashiko, Masayoshi Sugimoto, Masaru Sawamura, Hiroshi Yoshikawa*, Masayuki Takabe** (Japan Atomic Energy Research Institute, *Waseda University, **Ishikawajima-Harima Heavy Industries Co., Ltd.) |
p.158 |
8P-9 |
Design of the Injection System for JEARI FEL Linac M. Sawamura (Japan Atomic Energy Research Institute) |
p.161 |
8P-10 |
Multi Mode Effect on Electron Trapping in FEL 自由電子レーザーに於ける電子のトラッピングに対するマルチモードの効果 Shin-ichiro Kuruma, Kunioki Miwa* (Institute of Laser Technology, *Institute of Laser Engineering, Osaka University) |
p.164 |
8P-11 |
Field Measurement of a FEL Undulator and Particle Tracking FEL用アンジュレーターの磁界測定と粒子シミュレーション C. Tsukishima, S. Nakata (Central Research Laboratory, Mitsubishi Electric Corp.) |
p.168 |
8P-12 |
Studies about Free Electron Laser Using Induction Linac 誘導加速器を用いた自由電子レーザー K. Imasaki, T. Akiba, K. Mima, S. Kuruma*, N. Ohigashi, K. Tsunawaki, S. Nakai, C. Yamanaka* (Institute of Laser Engineering, Osaka University, *Institute for Laser Technology) |
p.171 |
8P-13 |
Present Status of FEL Experiment at ETL 電総研自由電子レーザー実験の現状 T. Yamazaki, T. Nakamura, S. Sugiyama, T. Tomimasu, T. Mikado, M. Chiwaki, R. Suzuki, T. Noguchi, S. Sato*, H. Usami** (Electrotechnical Laboratory, *Mitsubishi Electric Co., **Sumitomo Electric Industries, Ltd.) |
p.174 |
8P-14 |
Design of Free Electron Laser Experiment Utilizing UT/NERL Linac 東大原施自由電子レーザー実験計画と解析 Ryoichi Hajima, Maki Kishimoto, Tadahiro Ohashi, Shunsuke Kondo (Nuclear Engineering Research Laboratory, Faculty of Engineering, University of Tokyo) |
p.177 |
9A-1 |
Expert System for PF 2.5 GeV Linac Control 加速器制御エキスパート・システムの検討 Isamu Abe (National Laboratory for High Energy Physics) |
p.180 |
9A-2 |
Broad-Band Network System for PF 2.5 GeV Linac 放射光実験施設加速器用多重映像伝送システム Isamu Abe, Cheol On Pak, Kazuo Nakahara (National Laboratory for High Energy Physics) |
p.183 |
9A-3 |
Klystron RF Waveform Recording System at the KEK 2.5 GeV Linac KEK 2.5GeVリニアックのクライストロンRF波形記録システム H. Katagiri, H. Hanaki, S. Anami, G. Horikoshi (National Laboratory for High Energy Physics) |
p.186 |
9A-4 |
Design of Energy Slit and the Control in Photon Factory 2.5 GeV Linac 2.5GeV リニアックのスリットの設計及びそのコントロール K. Kakihara, Y. Otake, T. Shidara, S. Ohsawa, A. Enomoto, I. Sato (National Laboratory for High Energy Physics) |
p.189 |
9A-5 |
Personal Computer in Accelerator Design パソコンによるリニアックの設計 Eiji Tanabe (AET Associates, Inc.) |
p.192 |
9A-6 |
Test Accelerator Facility (TAF) for Linear Collider Seishi Takeda, Linear Collider Study Group (National Laboratory for High Energy Physics) |
p.195 |
9A-7 |
New Fabrication Method of X-Band Accelerating Structure Hajime Mizuno, Linear Collider Study Group (National Laboratory for High Energy Physics) |
p.199 |
9A-8 |
Low Power Test of X-Band Accelerating Structure H. Sakai, Linear Collider Study Group Members (National Laboratory for High Energy Physics) |
p.202 |
9A-9 |
Damped Cavity for Linear Collider リニアコライダーのための高次モード減衰空胴 M. Suetake, K. Takata, Linear Collider Study Group Members (National Laboratory for High Energy Physics) |
p.205 |
9A-10 |
A New Stabilizing Structure of Alvarez Linac アルバレリニアックの新しい安定化構造 Sadayoshi Fukumoto, Shinji Machida, Chikashi Kubota, Takashi Iwata* (National Laboratory for High Energy Physics, *Mihara Works, Mitsubishi Heavy Industries Ltd.) |
p.208 |
9A-11 |
Evaluation for the Test of a Disk-and-Washer Structure DAW構造加速管の評価 Yoshiharu Torizuka (Atomic Energy Research Institute, Nihon University) |
p.211 |
9A-12 |
An Experiment of High Gradient Acceleration by Recirculator 還流法による高電界加速実験 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. Huzie* (National Laboratory for High Energy Physics, *Mitsubishi Heavy Industry, Ltd.) |
p.214 |
9A-13 |
Linac-Structures for High Energy Gain 高エネルギー利得の線形加速器 Isamu Sato, Keigo Inoue*, So Hujie* (National Laboratory for High Energy Physics, *Mitsubishi Heavy Industory Co.) |
p.217 |
9P-1 |
Possible Applications of High Tc Superconductors to Accelerator Components Eisuke Minehara, Ryouji Nagai*, Manabu Takeuchi* (Accelerators Division, Depertment of Physics, Tokai Research Establishment, Japan Atomic Energy Research Institute, *Department of Electrical Engineering, Ibaraki University) |
p.220 |
9P-2 |
Basic Study of Ceramic Superconductor Cavity セラミック超伝導空胴の基礎研究(Ⅰ) H. Muto, T. Hattori, Y. Takahashi, A. Okamoto, I. Sugai* (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology, *Institute for Nuclear Study, University of Tokyo) |
p.222 |
9P-3 |
Developments of Superconducting Cavity at KEK KEKにおける超伝導空洞の開発 K. Saito, Y. Kojima, T. Furuya, S. Mitsunobu, S. Noguchi, T. Tajima, T. Nakazato*, K. Asano (National Laboratory for High Energy Physics, *Laboratory of Nuclear Science, Tohoku University) |
p.225 |
9P-4 |
Superconducting Cavities for TRISTAN Main Ring トリスタン主リング超伝導空洞 K. Saito, K. Ara, M. Arinaga, K. Asano, T. Furuya, K. Hara, K. Hosoyama, E. Kako, Y. Kojima, Y. Kojima, A. Kabe, K. Kubo, S. Mitsunobu, H. Nakai, S. Noguchi, T. Ogitsu, T. Tajima, H. Sakamoto, T. Suzuki, K. Akai (National Laboratory for High Energy Physics) |
p.230 |
9P-5 |
The R&D of the 1.5 GeV Linac for the RIKEN SR 理化学研究所大型放射光施設1.5GeV電子ライナックの概要 Kazushige Yamasu, Hiroki Miyade, Masahiro Hara (RIKEN) |
p.236 |
9P-6 |
The Study of the Positron Injection System for the RIKEN SR 理研大型放射光施設の陽電子入射システムの検討 Hiroki Miyade, Kazushige Yamasu, Masahiro Hara (RIKEN) |
p.239 |
9P-7IT 招待講演 |
The 1 GeV Proton Linac for the Japanese Hadron Facility Y. Yamazaki, T. Kato, M. Kihara (National Laboratory for High Energy Physics) |
p.242 |
9P-8 |
Design Study on the Proton RFQ for the Japanese Hadron Facility Noboru Tokuda, Shigeaki Arai, Nozomu Ueda (Institute for Nuclear Study, University of Tokyo) |
p.248 |
9P-9 |
Heavy Ion Linac Complex for the Japanese Hadron Facility Noboru Tokuda, Shigeaki Arai, Toshitaka Fukushima, Toshiyuki Hattori*, Teruhisa Morimoto, Eiki Tojyo, Nozomu Ueda (Institute for Nuclear Study, University of Tokyo, *Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology) |
p.251 |
9P-10 |
Design Study of Coupled Cell Linear Accelerator Structures for the JHF 1 GeV Proton Linac Tatsuya Kageyama, Takao Kato, Yuichi Morozumi, Yoshishige Yamazaki, Kazuo Yoshino (National Laboratory for High Energy Physics) |
p.254 |
9P-11 |
Proton Drift Tube Linac for the Japanese Hadron Facility T. Kato, Z. Igarashi, C. Kubota, F. Naito, E. Takasaki, T. Takenaka, Y. Yamazaki (National Laboratory for High Energy Physics) |
p.257 |
9P-12 |
RF Source for the 1 GeV Proton Linac 1GeV陽子リニアックのRF源 S. Anami, I. Abe, F. Hanaki, Z. Igarashi, T. Kubo, M. Ono, E. Takasaki, T. Takashima, T. Takenaka, H. Baba, M. Kihara (National Laboratory for High Energy Physics) |
p.260 |
9P-13 |
Modulator for the RF Source of the 1 GeV Proton Linac 1GeV陽子リニアックRF源のためのモジユレータ E. Takasaki, S. Anami, M. Ono, K. Kudo, T. Kubo, T. Takenaka, H. Baba, H. Hanaki (National Laboratory for High Energy Physics) |
p.263 |
9P-14 |
Control System for an RF Amplifier of the 1 GeV Proton Linac 1GeV陽子線型加速器のRF増幅器制御システム H. Hanaki, I. Abe, Z. Igarashi, T. Takashima, S. Anami (National Laboratory for High Energy Physics) |
p.266 |
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