A-2IT
招待講演 |
Inertial Confinement Fusion and Related Technology
T. Yamanaka (ILE) |
p.1 |
E-1IT
招待講演 |
Magnetic Field Effects on Biological Functions
H. Kamei (ETL) |
p.3 |
| PA-6 |
Present Status of JSR
K. Yanagida, H. Yokomizo, T. Harada, M. Yokoyama, T. Nagai, K. Mashiko, Y. Ishizaki, H. Tayama (Synchrotron Radiation Research Team, Japan Atomic Energy Research Institute) |
p.4 |
| CA-1 |
Status of the 1GeV Synchrotron Radiation Source at SORTEC
S. Nakamura, M. Ohno, N. Awaji, A. Chiba, R. Kitano (SORTEC Corporation), T. Satoh, O. Asai, M. Takanaka, T. Iida, Y. Yamamoto (SOR Project, Mitsubishi Electric Corporation), S. Kawazu, M. Kodaira, K. Kondo (Toshiba Corporation), T. Tomimasu (Electrotechnical Laboratory) |
p.7 |
| PA-10 |
Design and Performance of the 40 MeV Linac and Beam Transport System for the 1 GeV Synchrotron Radiation Source at SORTEC
M. Shiota, A. Hiraki (Communication Equipment Works, Mitsubishi Electric Corporation), M. Mizota, T. Iida (Accelerator Projects, Nuclear Fusion Development Dept., Mitsubishi Electric Corporation), M. Haraguchi, K. Kuno (Kobe Works, Mitsubishi Electric Corporation), S. Nakamura, M. Ohno (SORTEC Corporation), T. Tomimasu (Electrotechnical Laboratory) |
p.10 |
| PA-9 |
Design and Performance of the Electron Synchrotron for the 1 GeV Synchrotron Radiation Source at SORTEC
M. Kodaira, K. Kondo, Y. Yoshiwara, E. Toyoda, S. Kawazu (Keihin Product Operations, Toshiba Corporation), S. Nakamura, M. Ohno, N. Awaji, S. Nishizawa (SORTEC Corporation), T. Tomimasu (Electrotechnical Laboratory) |
p.13 |
| PA-11 |
Construction and First Operation of the 1GeV Electron Storage Ring for the Synchrotron Radiation Source at SORTEC
M. Takanaka, Y. Yamamoto, Y. Kijima (Accelerator Projects, Nuclear Fusion Development Dept., Mitsubishi Electric Corporation), T. Ohba, H. Tsuchidate (Kobe Works, Mitsubishi Electric Corporation), S. Nakamura, M. Ohno, N. Awaji (SORTEC Corporation), T. Tomimasu (Electrotechnical Laboratory) |
p.16 |
| PA-7 |
Compact Storage Ring NIJI-II
S. Sugiyama, T. Yamazaki, T. Mikado, M. Chiwaki, K. Yamada, H. Ohgaki, R. Suzuki, T. Tomimasu (Electrotechnical Laboratory), T. Mitsui, H. Takada, Y. Tsutsui, Y. Oka, Y. Hirata (Sumitomo Electric Industries) |
p.20 |
| CA-2 |
Superconducting Electron Storage Ring for a Synchrotron Light Source AURORA
T. Takayama, N. Yasumitu, H. Yamada (Synchrotron Radiation Technology Department, Sumitomo Heavy Industries Ltd.) |
p.23 |
| CA-4 |
Present Status of SUPER-ALIS
Teruo Hosokawa, Kouji Yamada (NTT LSI Laboratories) |
p.26 |
| PA-8 |
Compact Storage Ring NIJI-II as an Undulator Radiation Source
Yoshio Oka, Yoshihiro Hirata, Hiroshi Takada (Osaka Research Laboratories, Sumitomo Electric Industries, Ltd.), Takio Tomimasu (Elrectrotechnical Laboratory) |
p.29 |
| PB-42 |
Characteristics of the Electron Linacs of Osaka University and Their Application to Light Sources
S. Okuda, K. Tsumori, J. Ohkuma, T. Sawai, N. Kimura, T. Yamamoto, T. Hori, S. Takamuku (The Institute of Scientific and Industrial Research, Osaka University), S. Suemine (Unicon System) |
p.32 |
| B-1 |
Present Status of Cooler Synchrotron TARN II
T. Katayama, K. Chida (Institute for Nuclear Study, Univ. of Tokyo), T. Hattori (Tokyo Institute of Technology), T. Honma (Institute for Nuclear Study, Univ. of Tokyo), M. Kanazawa (National Institute for Radiological Science), A. Mizobuchi, M. Nakai, A. Noda, K. Noda, M. Sekiguchi, F. Soga, T. Tanabe, N. Ueda, S. Watanabe, T. Watanabe, M. Yoshizawa (Institute for Nuclear Study, Univ. of Tokyo) |
p.35 |
| PA-1 |
7MeV-Proton Linac at ICR
Y. Iwashita, M. Inoue, H. Ego, H. Okamoto, S. Kakigi, T. Shirai, K. Fukunaga, K. Fujita, H. Takekoshi (Institute for Chemical Research, Kyoto University) |
p.38 |
| PA-2 |
The State of the Art of Tsukuba 12UD Pelletron Accelerator
T. Ishihara, K. Shima, T. Komatsubara, M. Tomizawa, H. Oshima, Y. Tajima, S. Ishii, T. Takahashi, Y. Yamato, M. Kayama, M. Yamanouchi (Tandem Accelerator Center, University of Tsukuba) |
p.40 |
| E-3 |
HIMAC Synchrotron
A. Itano, M. Kanazawa, K. Sato (National Institute of Radiological Sciences), K. Endo (National Laboratory for High Energy Physics), T. Kohno (National Institute of Radiological Sciences), S. Matsumoto (National Laboratory for High Energy Physics), A. Noda (Institute for Nuclear Study, University of Tokyo), K. Noda, H. Ogawa, Y. Sato (National Institute of Radiological Sciences), F. Soga, S. Watanabe (Institute for Nuclear Study, University of Tokyo), S. Yamada (National Institute of Radiological Sciences), S. Kakiuchi (Hitachi Works), S. Kawatsu (Toshiba Corp.), Y. Hirao (National Institute of Radiological Sciences) |
p.42 |
| PA-3 |
Construction of HIMAC Injector
S. Yamada (National Institute of Radiological Sciences), T. Hattori (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology), A. Itano, M. Kanazawa, T. Kohno (National Institute of Radiological Sciences), Y. Miyazawa (The Institute of Physical and Chemical Research, RIKEN), O. Morishita (Sumitomo Heavy Idustries, Ltd.), K. Noda, H. Ogawa, K. Sato, Y. Sato (National Institute of Radiological Sciences), K. Sawada (Sumitomo Heavy Idustries, Ltd.), T. Yamada, Y. Hirao (National Institute of Radiological Sciences) |
p.45 |
| PA-4 |
Beam Delivery System of HIMAC
H. Ogawa, Y. Sato, S. Yamada, K. Noda, A. Itano, M. Kanazawa, T. Kohno, K. Sato (National Institute of Radiological Sciences), A. Noda (Institute for Nuclear Study, University of Tokyo), M. Mizota, K. Ohta, T. Ueda (Mitsubishi Electric Corp.), Y. Hirao (National Institute of Radiological Sciences) |
p.48 |
| B-2 |
Status of Injector AVF Cyclotron at RIKEN
A. Goto, K. Hatanaka, M. Kase, Y. Yano, T. Kageyama, S. Kohara, M. Nagase, H. Takebe, K. Ikegami, M. Saito, N. Nakanishi (RIKEN), Y. Kumata, T. Tachikawa (Sumitomo Heavy Industries, Ltd.) |
p.51 |
| B-3 |
Construction of the RCNP Ring Cyclotron
I. Miura, T. Yamazaki, A. Shimizu, K. Hosono, T. Itahashi, T. Saito, A. Ando, H. Ogata, I. Katayama, T. Nakatsuka, M. Kondo, H. Ikegami (Research Center for Nuclear Physics, Osaka University), J. Abe (Accelerator Business Center, Technical Department, Sumitomo Heavy Industries Ltd.) |
p.54 |
| E-2 |
Charging and Acceleration of Microparticles
N. Kamiya, T. Sato, K. Yoshida (Department of Nuclear Engineering, Kyoto University), Y. Haruyama (Physics Laboratory, Kyoto Prefectural College), N. Imanishi, F. Fukuzawa (Department of Nuclear Engineering, Kyoto University) |
p.57 |
| PB-4 |
R&D of Thermionic RF Gun
T. Urano, A. Enomoto, T. Oogoe, S. Ohsawa, H. Kobayashi (National Laboratory for High Energy Physics) |
p.60 |
| PB-44 |
Negative Ion Sources at KEK
Y. Mori, A. Takagi, K. Ikegami, A. Ueno, S. Fukumoto (National Laboratory for High Energy Physics) |
p.62 |
| CD-2 |
First Operation of the ECR Ion Source at the INS SF Cyclotron
Y. Ohshiro, T. Honma, M. Sekiguchi, T. Yamazaki, M. Fujita, M. Oyaizu, M. Nishiguchi, N. Yamazaki, Y. Shirakabe (Institute for Nuclear Study, University of Tokyo) |
p.65 |
| PB-1 |
Preliminary Operation Results of JAERI ECR Ion Source OCTOPUS
W. Yokota, K. Arakawa (Japan Atomic Energy Research Institute), T. Tachikawa, T. Satoh (Sumitomo Heavy Industries, Ltd.), C. Dupont, Y. Jongen (Ion Beam Applications S.A.) |
p.68 |
| PB-2 |
Development of Higher Order Mode ECR (HiECR) Ion Source (Test of 6GHz Operation)
T. Hattori, T. Hirata (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology), H. Suzuki, S. Yamada (National Institute of Radiological Sciences), M. Sekiguchi, Y. Ohshiro, E. Tojyo, M. Oyaizu, Y. Shirakabe (Institute for Nuclear Study, University of Tokyo), K. Sawada (Sumitomo Heavy Industry, Ltd.) |
p.71 |
| CD-1 |
Construction of Polarized Heavy Ion Source at RCNP
T. Ohshima, K. Katori (Laboratory of Nuclear Study, Osaka University), M. Tanaka (Kobe Tokiwa Jr. College), M. Fujiwara, T. Itahashi, H. Ogata, M. Kondo (Research Center for Nuclear Physics, Osaka University) |
p.74 |
| PB-3 |
Production of Multiply Charged Ions by a Pulsed PIG Source in HIMAC
Y. Sato, T. Yamada, H. Ogawa, S. Yamada (National Institute of Radiological Sciences), T. Kimura (Sumitomo Heavy Industries, Ltd), K. Sato, A. Itano, M. Kanazawa, T. Kohno, K. Noda, Y. Hirao (National Institute of Radiological Sciences) |
p.77 |
| PA-17 |
RF Accelerating System for TARN II
T. Katayama (Institute for Nuclear Study, University of Tokyo), M. Kanazawa, K. Sato (National Institute of Radiological Science), T. Watanabe, M. Yoshizawa (Institute for Nuclear Study, University of Tokyo) |
p.80 |
| PA-19 |
Design of RF Cavities for the SPring-8 Storage Ring
T. Kusaka, T. Yoshiyuki, T. Moro, M. Hara (RIKEN-JAERI Synchrotron Radiation Facility Design Team), K. Inoue (Kobe Steel, Ltd.) |
p.83 |
| CB-4 |
Acceleration Test of 2MeV Proton Prototype New IHQ Linac
T. Hattori, M. Okamura, H. Muto (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology), H. Suzuki (National Institute of Radiological Sciences), T. Fukushima (Sumitomo Heavy Industry, Ltd.), N. Ueda (Institute for Nuclear Study, University of Tokyo) |
p.86 |
| PA-40 |
The RF System for the RCNP Ring Cyclotron
I. Miura, T. Saito, M. Uraki, A. Shimizu (Research Center for Nuclear Physics, Osaka University), Y. Kumata, Y. Touchi, K. Uno (Accelerator Business Center, Technical Department, Sumitomo Heavy Industries Ltd.) |
p.89 |
| CB-2 |
Structure and RF Characteristics of the INS 25.5-MHz Split Coaxial RFQ
N. Tokuda, S. Arai, A. Imanishi, T. Morimoto (Institute for Nuclear Study, University of Tokyo), S. Shibuya (Graduate University for Advanced Studies), E. Tojyo (Institute for Nuclear Study, University of Tokyo) |
p.92 |
| PA-12 |
Acceleration Experiments of a Variable Energy RFQ Driven by an LC-Tank Circuit
K. Tokiguchi, K. Amemiya, Y. Hakamata, N. Sakudo (Hitachi Research Laboratory, Hitachi Ltd.), S. Yamada, Y. Hirao (National Institute of Radiological Sciences) |
p.95 |
| CB-3 |
Experimental Study on a 508MHz Slot-Coupled Multi-Cell Model Cavity
T. Rizawa, K. Satoh, Y. Tanabe, M. Nakano (Toshiba Corporation) |
p.98 |
| PA-13 |
Design of a Modified Disk Loaded Type for Electric Field Focusing
Hiroshi Yoshikawa (SR-Group, Department of Physics, Japan Atomic Energy Institute) |
p.101 |
| PA-14 |
Damped Cavity for Linear Collider
M. Suetake, T. Higo, K. Takata (National Laboratory for High Energy Physics) |
p.103 |
| PA-18 |
High Power Input Coupler for the TRISTAN APS Cavity
M. Akemoto, Y. Yamazaki (National Laboratory for High Energy Physics) |
p.106 |
| CB-1 |
Design Study of an X-Band Klystron Modulator Using Magnetic-Pulse-Compression Techniques
T. Shidara, M. Akemoto, M. Yoshida, S. Takeda, Linear Collider Study Group (KEK) |
p.109 |
| PA-15 |
150 kW CW Circulator
Y. Takeuchi, S. Araki, H. Nakanishi (National Laboratory for High Energy Physics), H. Baba, K. Shinohara, S. Tsuruoka (Nihon Koshuha Co., Ltd.) |
p.112 |
| PA-16 |
New High Power Variable-Attenuator/Phase-Shifter Systems
S. Ohsawa, I. Sato, A. Asami (National Laboratory for High Energy Physics) |
p.115 |
| DA-3 |
Vacuum Characteristics of TRISTAN Ring
K. Kanazawa, Y. Suetsugu, H. Hisamatsu (KEK) |
p.118 |
| CC-2 |
Upgrade Design for Vacuum System of TRISTAN Accumulation Ring
Hajime Ishimaru, Takashi Momose, Kenichi Kanazawa, Yuhsuke Suetsugu, Hiromi Hisamatsu (National Laboratory for High Energy Physics) |
p.121 |
| PA-22 |
Ceramic Chambers, Bellows, Windows, and SOR Ports to Improve the Characteristics of TRISTAN Accumulation Ring (TAR)
T. Momose (National Laboratory for High Energy Physics) |
p.124 |
| PA-24 |
Design of the New Distributed Ion Pumps for TRISTAN AR
Y. Suetsugu, M. Nakagawa, T. Momose, H. Ishimaru (National Laboratory for High Energy Physics) |
p.127 |
| PA-25 |
Vacuum System for the NIJI-III Compact Storage Ring
F. Miura, Y. Tsutsui, H. Takada (Osaka Research Laboratories, Sumitomo Electric Industries, Ltd.) |
p.130 |
| PA-20 |
SPring-8 Vacuum System
S. H. Be, S. Yokouchi, Y. Morimoto, T. Nishidono, Y. P. Lee, Y. Oikawa (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.133 |
| PA-21 |
Manufacture and Surface Analysis of the Al-Alloy Vacuum Chamber for SPring-8
S. Yokouchi (RIKEN-JAERI Synchrotron Radiation Facility Design Team), Youngpak Lee (RIST), H. Sakamoto (Ishikawajima-Harima Heavy Industries Co., Ltd.), T. Nishidono, Y. Morimoto, Suck Hee Be (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.136 |
| CC-3 |
Present Status of TARN-II Vacuum System
K. Chida, A. Mizobuchi (Institute for Nuclear Study, University of Tokyo) |
p.139 |
| PA-26 |
Vacuum System of the RCNP Ring Cyclotron
A. Shimizu, I. Miura (Research Center for Nuclear Physics, Osaka University), S. Ichida, I. Taguchi (Sumitomo Heavy Industries Ltd.) |
p.142 |
| CC-1 |
Vacuum Gauge Calibration with Spinning Rotor Drag Gauge Pressure Range 10-2 - 10-12 Torr, for Nuclear Experimental Machines
K. Kaneko (Accelerator Research Division, Institute for Nuclear Study, University of Tokyo) |
p.145 |
| PA-27 |
The Life Time Characteristics of NEG Pump
Kenji Itoga, Kazunori Ikegami, Itsuo Kodera (Third Group, Advanced Electrotechnology Department, Central Reseach Laboratory Mitsubishi Electric Corporation) |
p.146 |
| PB-8 |
Design and Measurement of Magnets and RF Cavity for the 1 GeV Electron Synchrotron at SORTEC
K. Kondo, T. Chugun, M. Kodaira, Y. Yoshiwara, T. Iimura (Keihin Product Operations, Toshiba Corporation), S. Nakamura, M. Ohno (SORTEC Corporation), T. Tomimasu (Electrotechnical Laboratory) |
p.149 |
| PB-5 |
Field Analysis for JAERI AVF Cyclotron
M. Fukuda, K. Arakawa, T. Kamiya, T. Karasawa (Japan Atomic Energy Research Institute), T. Tachikawa, J. Kanakura (Sumitomo Heavy Industries, Ltd.) |
p.152 |
| PB-6 |
Sector Magnets of the RCNP Ring-Cyclotron
K. Hosono, M. Kibayashi, I. Miura (Research Center for Nuclear Physics, Osaka University), J. Abe, Y. Kimura, I. Taguchi (Sumitomo Heavy Industries, Ltd.) |
p.155 |
| CD-3 |
A Colloidal Solution of Fe3O4 Crystallites to Optically Locate the Magnetic Center of Multipole Magnets
Ryuhei Sugahara, Tadashi Kubo, Yasunobu Oosawa (National Laboratory for High Energy Physics) |
p.158 |
| PB-7 |
Measurement of Higher Multipole Components in Quadrupole Magnet
A. Ando, K. Hosono, M. Kibayashi (Research Center for Nuclear Physics, Osaka University), M. Tsukihara (Sumitomo Heavy Industries, Ltd.) |
p.160 |
| PB-10 |
Progress in Magnet System for the SPring-8 Storage Ring
J. Ohnishi, Y. Oikawa, S. Motonaga (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.163 |
| PB-43 |
Design of Power Supplies for SPring-8 Storage Ring Magnets
H. Takebe, S. Motonaga, H. Kamitsubo (RIKEN JAERI SPring-8 Design Team) |
p.166 |
| PB-11 |
Study of the Injection Devices for the Storage Ring of SPring-8
H. Miyade, H. Tanaka, J. Ohnishi, S. Motonaga (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.169 |
| PB-9 |
Development of a Septum Magnet with Thin Septum Width and Large Magnetic Field
Chihiro Tsukishima, Shuhei Nakata (Third Group, Advanced Electrotechnology Department, Central Research Laboratory, Mitsubishi Electric Corporation) |
p.172 |
| PA-39 |
Development of the Superconducting Bending Magnets for the SR Ring
T. Okazaki, Y. Hosoda, S. Isojima, T. Keishi, C. Suzawa, T. Masuda (Osaka Research Laboratories, Sumitomo Electric Industries, Ltd.) |
p.175 |
| CC-4 |
Design of a 12T Superconducting Wiggler for Angiography
T. Keishi, Y. Hosoda (Sumitomo Electric Industries), T. Tomimasu, S. Sugiyama (Electrotechnical Laboratory) |
p.178 |
| DD-1 |
Present Status of a Microwave FEL Experiment at KEK
T. Monaka, K. Ebihara, S. Hiramatsu, Y. Kimura, J. Kishiro (National Laboratory for High Energy Physics), H. Kurino (Department of Physics, Tohoku University), T. Ozaki, K. Takayama (National Laboratory for High Energy Physics) |
p.181 |
| PB-12 |
Preliminary Experimental Results from an X-Band Free Electron Laser
T. Ozaki, K. Ebihara, S. Hiramatsu, Y. Kimura, J. Kishiro (National Laboratory for High Energy Physics), H. Kurino (Tohoku University, Physics Department), T. Monaka (Graduate University for Advanced Studies), K. Takayama (National Laboratory for High Energy Physics) |
p.184 |
| PB-13 |
A Linear Collider in the TBA Scheme Using Microwave Free Electron Lasers
J. Kishiro, K. Ebihara, S. Hiramatsu, Y. Kimura (National Laboratory for High Energy Physics), H. Kurino (Department of Physics, Tohoku University), T. Monaka, T. Ozaki, K. Takayama (National Laboratory for High Energy Physics) |
p.187 |
| DD-2 |
Status of Free Electron Laser Project at the JAERI
M. Ohkubo, Y. Kawarasaki, N. Shikazono, K. Mashiko, E. Minehara, M. Sugimoto, M. Sawamura, M. Takabe (Dept. of Physics, Tokai Establishment, Japan Atomic Energy Research Institute), J. Sasabe (Hamamatsu Photonics) |
p.190 |
| PB-14 |
Two-Way Amplification Free Electron Laser Oscillator
T. Nakamura (Electrotechnical Laboratory) |
p.192 |
| DD-3 |
A New Strong Radiation Source by an Electron Linear Accelerator Coherent Synchrotron Radiation
T. Nakazato, M. Oyamada, N. Niimura, S. Urasawa, R. Kato (Laboratory of Nuclear Science, Tohoku University), Y. Shibata, K. Ishi, T. Ohsaka, T. Takahashi, H. Mishiro, M. Ikezawa (Research Institute for Scientific Measurements, Tohoku University), Y. Kondo (Department of Applied Physics, Faculty of Technology, Tohoku University), T. Nanba (Department of Physics, Faculty of Science, Kobe University), Y. Torizuka (Atomic Energy Research Institute, Nihon University) |
p.195 |
| DD-4 |
Electoron Acceleration in a System of Inverse Sychrotron Radiation
H. Watanabe, A. Manabe, S. Kawata (Department of Electrical Engineering) |
p.198 |
| PA-28 |
Initial Electron Cooling Studies in the TARN II
T. Tanabe, K. Chida, T. Honma (Institute for Nuclear Study, University of Tokyo), T. Hattori (Tokyo Institute of Technology), M. Kanazawa (National Institute of Radiological Sciences), T. Katayama, A. Mizobuchi (Institute for Nuclear Study, University of Tokyo), M. Nakai (NKK Co.), A. Noda (Institute for Nuclear Study, University of Tokyo), K. Noda (National Institute of Radiological Sciences), M. Sekiguchi, F. Soga, N. Ueda, S. Watanabe, T. Watanabe, M. Yoshizawa (Institute for Nuclear Study, University of Tokyo), A. Ando (Research Center for Nuclear Physics, Osaka University) |
p.201 |
| DC-1 |
Transverse Beam Bunching Method Using a Deflecting Mode
K. Miyata, M. Nishi (Energy Research Laboratory, Hitachi, Ltd.) |
p.204 |
| CE-4 |
Accumulation in a Ring with Laser Photo-Ionization Injection
Chihiro Ohmori (Institute for Nuclear Study, University of Tokyo), Shigenori Hiramatsu (National Laboratory for High Energy Physics) |
p.207 |
| PA-29 |
Beam Monitors for RF Control in the Synchrotron TARN-II
M. Kanazawa, K. Sato (National Institute of Radiological Sciences), T. Katayama, M. Yoshizawa (Institute for Nuclear Study, University of Tokyo), E. Toyoda, H. Morii (Toshiba Corp.) |
p.210 |
| PA-36 |
Improvement of Beam Lifetime Measurement System at TRISTAN
T. Naito, M. Tejima, A. Ogata (KEK) |
p.213 |
| PA-32 |
Beam Monitoring System for the Compact Synchrotron Light Source AURORA
H. Yamada, S. Taguchi (Synchrotron Radiation Technology Department, Sumitomo Heavy Industries Ltd.) |
p.216 |
| PA-35 |
A Fast Polarimeter for e+e- Storage Rings
K. Nakajima, M. Arinaga, T. Kawamoto, Y. Mizumachi, Y. Mori, A. Ogata, K. Yokoya (Natinal Laboratory for High Energy Physics) |
p.219 |
| PA-37 |
Abnormal Beam-Induced Signals in the Button-Electrodes of the Beam Position Monitors of TRISTAN MR
M. Tejima, H. Ishii, K. Mori, Y. Mizumachi (KEK) |
p.222 |
| PA-33 |
Time Bunching System to Modulate Low Energy Positron Beams
R. Suzuki, T. Mikado, H. Ohgaki, M. Chiwaki, T. Yamazaki, T. Tomimasu (Electrotechnical Laboratory), Y. Kobayashi (National Chemical Laboratory for Industry) |
p.225 |
| CE-1 |
New Design of an RF Beam Chopper
T. Kato (National Laboratory for High Energy Physics) |
p.228 |
| PA-34 |
Energy Slit System for the PF 2.5-GeV Linac
K. Kakihara, Y. Otake, N. Kamikubota, K. Furukawa, S. Ohsawa, A. Enomoto, I. Sato (National Laboratory for High Energy Physics), G. Horikoshi (Tsukuba College of Technology), T. Shidara (National Laboratory for High Energy Physics) |
p.231 |
| CE-3 |
Beam Diagnostics in the Ring Cyclotron
T. Itahashi, T. Saito, I. Miura (Research Center for Nuclear Physics, Osaka University), S. Ichida (Accelerator Business Center, Technical Department, Sumitomo Heavy Industries, Ltd.) |
p.234 |
| PA-31 |
Beam Loss Monitor at the INS Electron Synchrotron
Y. Hashimoto, K. Kobayashi, H. Masuda, M. Muto, K. Norimura, H. Okuno, K. Yoshida, K. Watanabe (Institute for Nuclear Study, the University of Tokyo) |
p.237 |
| PB-16 |
Improvement of the Control System for Linac and Pulse Beam Strecher at Tohoku University
Masakatsu Mutoh, Yoshinobu Shibasaki, Tadahiro Oonuma (Laboratory of Nuclear Science, Tohoku University) |
p.240 |
| PB-17 |
Computer Control System for the Superconducting Electron Storage Ring NIJI-III
H. Takada, Y. Tsutsui, K. Emura (Sumitomo Electric Industries, Ltd.), S. Nishimura, M. Yamaji (Nissin Electric Co., Ltd.) |
p.243 |
| PB-18 |
Control System for HIMAC Injector
T. Kohno, S. Yamada, H. Ogawa, Y. Sato, K. Sato, A. Itano, M. Kanazawa, K. Noda, K. Kawachi (National Institute of Radiological Sciences), M. Maruyama (Sumitomo Heavy Industries, Ltd.), K. Aoki (Sumitomo Heavy Industries, Ltd.), S. Hara, O. Morishita (Sumitomo Heavy Industries, Ltd.), Y. Hirao (National Institute of Radiological Sciences) |
p.246 |
| PB-19 |
Computer Control of TARN-II Main Ring Power Supply
Shin-Ichi Watanabe, Akira Noda, Tamaki Watanabe (Institute for Nuclear Study, University of Tokyo), Toshiyuki Kohno (National Institute of Radiological Sciences) |
p.249 |
| PB-20 |
Operation Softwares of RCNP Ring Cyclotron
T. Yamazaki, A. Ando, K. Hosono, T. Itahashi, I. Katayama, M. Kibayashi, S. Kinjo, M. Kondo, I. Miura, K. Nagayama, T. Noro, T. Saito, A. Shimizu, M. Uraki, H. Ogata (Research Center for Nuclear Physics, Osaka University), K. Aoki (Accelerator Business Center, Technological Department, Sumitomo Heavy Industries, Ltd.), K. Kodaira (Systems Development Department, Sumitomo Heavy Industries, Ltd.) |
p.252 |
| DA-1 |
Device Controls of RCNP Ring Cyclotron
T. Yamazaki, A. Ando, K. Hosono, T. Itahashi, I. Katayama, M. Kibayashi, S. Kinjo, M. Kondo, I. Miura, K. Nagayama, T. Noro, T. Saito, A. Shimizu, M. Uraki, H. Ogata (Research Center for Nuclear Physics, Osaka University), M. Maruyama, S. Yamada (Accelerator Business Center, Technological Department, Sumitomo Heavy Industries, Ltd.) |
p.255 |
| PB-21 |
Beam Intensity and Spill Control by a Personal Computer System at INS 1.3 GeV Electron Synchrotron
H. Masuda, M. Muto, K. Norimura, K. Yoshida (Institute for Nuclear Study, University of Tokyo) |
p.258 |
| PB-22 |
Development of a Fast Closing Valve System Controller for Synchrotron Radiation Branch Beam Line
Soichiro Hayashi (Fuchu Works, Toshiba), Shigeo Kurita (Keihin Product Operation, Toshiba), Yasutsugu Morii (Principal Office, Toshiba), Noriichi Kanaya (National Laboratory for High Energy Physics), Shigeru Sato (Department of Physics, University of Tohoku) |
p.261 |
| PB-15 |
Forth-Nodal: Concept and Preliminary
Yuuki Kawarasaki, Masayoshi Sugimoto (Japan Atomic Energy Research Institute) |
p.262 |
| PA-43 |
Modelling of Control System Architecture for Next-Generation Accelerators
Shi-Yao Liu (IHEP), Shin-Ichi Kurokawa (National Laboratory of High Energy Physics) |
p.264 |
| PA-44 |
Consideration of Control System Architectures for Next-Generation Linear Colliders and Kaon Factories
Shin-Ichi Kurokawa (National Laboratory of High Energy Physics), Shi-Yao Liu (IHEP) |
p.267 |
| DA-3 |
An Anomalous Bunch Lengthening in a Multibunch Operation Observed in the TRISTAN Accumulation Ring
Y. Funakoshi, A. Ogata, K. Satoh, H. Hayano, K. Hanaoka, E. Kikutani, H. Koiso, T. Kawamoto (National Laboratory for High Energy Physics) |
p.270 |
| CE-2 |
Impurity Increase in Single Bunch Mode of UVSOR and Its Cure
Toshio Kasuga, Makoto Tobiyama (Hiroshima University), Hiroto Yonehara (Institute for Molecular Science) |
p.273 |
| PB-33 |
Beam Transport and Injection Systeh at TARN II and Test of Multiturn Injection
F. Soga (Institute for Nuclear Study, University of Tokyo), K. Noda (The Japan Steel Works, Ltd.), K. Chida (Institute for Nuclear Study, University of Tokyo), T. Hattori (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology), T. Honma, T. Katayama, A. Mizobuchi (Institute for Nuclear Study, University of Tokyo), M. Nakai (Research Laboratory for Nuclear Reactors, Tokyo Institute of Technology), A. Noda, F. Sakuta, M. Sekiguchi, N. Ueda, S. Watanabe, M. Yoshizawa (Institute for Nuclear Study, University of Tokyo) |
p.276 |
| PB-24 |
Observation and Analysis of Beam Position Movement During the Acceleration of NTT Normal Conducting Ring
M. Nakajima, K. Nishimura, A. Shibayama (LSI Laboratories, Nippon Telegraph and Telephone Corporation) |
p.279 |
| PB-25 |
Analysis of the Secondary Effect of a Corrector Magnet
Soichiro Okuda (Third Group, Advanced Electrotechnology Department, Central Research Laboratory, Mitsubishi Electric Corporation) |
p.281 |
| PB-23 |
Design of the Compact Storage Ring NIJI-IV
Hideaki Ohgaki, Tetsuo Yamazaki, Suguru Sugiyama Tomohisa Mikado, Ryoichi Suzuki, Takio Tomimasu (Electrotechnical Laboratory) |
p.284 |
| DA-2 |
Beam Tracking of a Small Storage Ring
Hirofumi Tanaka, Tetsuya Nakanishi, Soichiro Okuda (Third Group, Advanced Electrotechnology Department, Central Research Laboratory, Mitsubishi Electric Corporation) |
p.287 |
| PB-26 |
Design of the High Emittance Optics for the Storage Ring of SPring-8
K. Tsumaki, R. Nagaoka, H. Tanaka, K. Yoshida, M. Hara (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.290 |
| PB-30 |
Tolerances of Magnet Imperfections for a Storage Ring at SPring-8
K. Yoshida (Accelerator Projects, Nuclear Fusion Development Dept., Mitsubishi Electric Corporation), H. Tanaka, R. Nagaoka, K. Tsumaki, M. Hara (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.293 |
| PB-29 |
Commissioning Study of the SPring-8 Storage Ring
R. Nagaoka, K. Tsumaki, H. Tanaka, K. Yoshida, M. Hara (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.296 |
| PB-27 |
Study of Linear Coupling Compensation for the Storage Ring of SPring-8
H. Tanaka, R. Nagaoka, K. Yoshida, K. Tsumaki, M. Hara (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.299 |
| PB-28 |
Estimation of the Coupling Impedance for the SPring-8 Storage Ring
T. Yoshiyuki, T. Kusaka, M. Hara, S. H. Be (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.302 |
| PB-31 |
The Design of the 8GeV Synchrotron and the Beam Transport System
T. Shimada, M. Kabasawa, K. Nakayama, H. Hashimoto, T. Harami, Y. Suzuki (JAERI-RIKEN Synchrotron Radiation Facility Design Team) |
p.305 |
| DA-4 |
Slow Beam Extraction from TARN II
A. Noda, M. Yoshizawa, K. Chida, F. Soga, A. Mizobuchi (Institute for Nuclear Study, University of Tokyo) |
p.309 |
| PB-32 |
Design of the Beam Transport Lines of the Japanese Hadron Project
Chihiro Ohmori (Institute for Nuclear Study, University of Tokyo), Yukihide Kamiya, Motohiro Kihara (National Laboratory for High Energy Physics) |
p.312 |
| PB-34 |
The Effect of Chromaticity on Intrinsic Depolarizing Resonances
T. Toyama, S. Hiramatsu, H. Sato J. A. Holt (National Laboratory for High Energy Physics) |
p.315 |
| DB-2 |
Development of High Intensity Beam Hadling System at KEK-PS New Experimental Hall Part I, General Concept
Y. Yamanoi, M. Minakawa, M. Ieiri, Y. Kato, H. Ishii, Y. Suzuki, M. Takasaki, K. H. Tanaka (Beam Channel Group, Physics Department, National Laboratory for High Energy Physics) |
p.318 |
| PB-36 |
Development of High Intensity Beam Handling System at KEK-PS New Experimental Hall Part II, Development of the Quick Disconnect System
Y. Kato, M. Minakawa, Y. Yamanoi, M. Ieiri, H. Ishii, Y. Suzuki, M. Takasaki, K. H. Tanaka (Beam Channel Group, Physics Department, National Laboratory for High Energy Physics), H. Kojima, K. Kaji (Ishikawajima-Harima Heavy Industries Co., Ltd.) |
p.320 |
| PB-37 |
Development of High Intensity Beam Handling System at KEK-PS New Experimental Hall Part III, Development of Radiation Hard Equipments
H. Ishii, M. Minakawa, Y. Yamanoi, M. Ieiri, Y. Kato, Y. Suzuki, M. Takasaki, K. H. Tanaka (Beam Channe Group, Physics Department, National Laboratory for High Energy Physics), K. Kato (Electromagnet Division, Tokin Corporation) |
p.322 |
| DB-4 |
Induced Radioactivity and Remote Handling Methods for High Intensity Proton Accelerator
I. Sakai, T. Kubo, K. Narushima, Y. Irie (National Laboratory for High Energy Physics), S. Kojima (Ishikawajima Harima Heavy Industries Co., Ltd.) |
p.324 |
| PB-38 |
Radiation Shielding in HiSOR Project
M. Hoshi, S. Sawada (Research Institute for Nuclear Medicine and Biology, Hiroshima University), I. Endo (Department of Physics, Hiroshima University), M. Taniguchi, T. Ohta (Department of Materials Science, Hiroshima University) |
p.327 |
| PB-35 |
Transmission Experiment of High Energy Neutrons
Kagetomo Miyahara , Kazuo Shin (Department of Nuclear Engineering, Kyoto University), Yoshitomo Uwamino (Institute of Nuclear Study, University of Tokyo), Hideaki Sakai (Department of Physics, University of Tokyo), Ken-Ichi Tominaga (Research Center of Nuclear Physics, Osaka University), Shigeo Numata (Shimizu Construction Co., Ltd.) |
p.330 |
| DB-1 |
Thermalization of Accelerator-Produced Neutrons in a Concrete Room
Toshio Ishikawa (Technical Research Institute, Fujita Corporation), Hiroshi Sugita, Takashi Nakamura (Cyclotron and Radioisotope Center, Tohoku University) |
p.333 |
| DB-3 |
Fast Neutron Dosimetry Using CR-39 Plastic
H. Tawara, M. Miyajima, S. Sasaki, K. Hozumi (Radiation and Safety Control Center, National Laboratory for High Energy Physics) |
p.336 |
| PB-39 |
Verification of U-Target Cladding Deterioration with Detection of 135Xe
S. Sasaki, M. Miyajima, K. Hozumi, K. Iijima, K. Kondo (National Laboratory for High Energy Physics) |
p.338 |
| DC-2 |
The Accelerator System for HiSOR
T. Kasuga, T. Ohta, M. Taniguchi, M. Tobiyama (Department of Materials Science, Hiroshima University), I. Endo (Department of Physics, Hiroshima University), S. Hoshi (Research Institute for Nuclear Medicine and Biology, Hiroshima University) |
p.341 |
| DE-2 |
Development of a Superconducting Compact Storage Ring "NIJI-III" for Industrial Application
Katsuji Emura , Yasumitsu Tsutsui , Fujio Miura , Hiroshi Takada (Osaka Research Laboratories, Sumitomo Electric Industries, Ltd.), Takio Tomimasu (Electrotechnical Laboratory) |
p.344 |
| DC-4 |
Compact Storage Ring "NIJI-IV" for UV FEL Experiment
T. Tomimasu, S. Sugiyama, H. Ohgaki, T. Yamazaki, K. Yamada, T. Mikado, M. Chiwaki, R. Suzuki (Electrotechnical Laboratory), S. Suse, M. Yoshiwa, A. Iwata (Technical Institute, Kawasaki Heavy Industries, Ltd.) |
p.347 |
| DC-3 |
R&D Plan of the 8 GeV Booster Synchrotron for 1989-90
H. Ohtsuka, K. Ashida, T. Harami, H. Hashimoto, M. Iizuka, M. Kabasawa, K. Nakayama, T. Shimada, H. Suzuki, K. Yamada, H. Yoshikawa, H. Yokomizo, Y. Suzuki (JAERI-RIKEN Synchrotron Radiation Facility Design Team, Japan Atomic Energy Research Institute) |
p.350 |
| DE-3 |
Storage Ring Design for the SPring-8, the 8 GeV Synchrotron Radiation Facility in Japan
M. Hara, S. Be, T. Kusaka, Y. Lee, H. Miyade, Y. Morimoto, S. Motonaga, R. Nagaoka, T. Nishidono, J. Ohnishi, Y. Oikawa, S. Sasaki, H. Takebe, I. Takeshita, H. Tanaka, K. Tsumaki, T. Wada, S. Yokouchi, K. Yoshida, T. Yoshiyuki, H. Kamitsubo (RIKEN-JAERI Synchrotron Radiation Facility Design Team) |
p.352 |
| DE-4 |
The Injection Linac for the 8 GeV Synchrotron Radiation Facility in Japan
H. Suzuki, H. Yokomizo, H. Yoshikawa, K. Mashiko, M. Iizuka, T. Ishida, N. Nakamura, K. Yamada, Y. Suzuki (JAERI-RIKEN Synchrotron Radiation Facility Design Team) |
p.355 |
| DE-1 |
Development Proposal of an Accelerator Nuclear Incineration
Shinichi Toyama, Kenji Konashi, Nobuyuki Sasao (Power Reactor and Nuclear Fuel Corporation (PNC), Tokai Works), Hisashi Watanabe (Zuihou Sangyo Co. Ltd), Takao Urano, Satoshi Ohsawa, Atsushi Enomoto, Hitoshi Kobayashi, Shozo Anami, Kazuo Nakahara, Y.-L. Wang, Isamu Sato (National Laboratory for High Energy Physics) |
p.358 |
| PB-40 |
Nuclear Transmutation for 85Kr by Its Acceleration Up to 100 MeV/u
T. Itahashi (Research Center for Nuclear Physics, Osaka University) |
p.361 |
| PB-41 |
Size Reduced Design of Medical Proton Synchrotron
K. Endo, S. Fukumoto, K. Muto (National Laboratory for High Energy Physics), M. Akisada, T. Inada, H. Tsujii, A. Maruhashi, Y. Takada (Particle Radiation Medical Science Center) |
p.364 |
| PA-38 |
A Bunch Length Monitor by Detecting Two Frequency Components of the Beam
T. Ieiri (National Laboratory for High Energy Physics), R. Gonzalez, G. Jackson (Fermi National Accelerator Laboratory) |
p.367 |
|