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Accelerator Science and Industry in Japan
13 May 2016
Masanori Matsuoka Secretary General, Advance accelerator association promoting science & technology
Advanced Accelerator Association Promoting Science & Technology Contents 2
AAA activities Accelerator Science and Industry Toward realization of ILC Contents 3
AAA activities Accelerator Science and Industry Toward realization of ILC Outline of AAA 4 The Advanced Accelerator Association Promoting Science & Technology (AAA) was established in June 2008 with 76 member companies / institutes, → 146(May,2016) In order to -study how to reach a consensus to realize ILC (International Linear Collider) in Japan, and -promote and seek various industrial applications of advanced accelerators and technologies derived from R&D on such accelerators with facilitating Industry-Government-Academia collaboration AAA Organization 5 Honorary Chairman : Masatoshi Koshiba (2002 Nobel Laureate) Supreme Advisor : Kaoru Yosano (Former Chief Cabinet Secretary, Former Minister of Finance, Economy, METI, MEXT) Chairman : Takashi Nishioka (Former President, Mitsubishi Heavy Industries, Ltd.) Directors: Atsuto Suzuki (President, Iwate Prefectural University) Masanori Yamauchi (Director General, KEK) Shigenori Shiga (Vice-President, Toshiba Corporation) Hiroto Uozumi (CEO of Nuclear Power Plant. Hitachi, Ltd.) Yasuyuki Ito (Executive Officer, Mitsubishi Electric Corporation) Masahiro Inagaki (Executive Officer, Kyocera Corporation) Yuzo Onishi (Professor, Kansai University) Auditor: Sachio Komamiya (University of Tokyo)
Members (Company: 104, Institute: 42) All major Heavy electric Machinery, all General Contractor Various manufacturing industry, and trading company ….. Member of AAA 6
76 members 146 members
・Members continue to increase.
・Many Japanese companies expect to realize ILC in Japan Member of AAA 7
(General Members) (Institutional Members) AKITA FINE BLANKING KURARAY R&K Chiba University of Commerce Tohoku Conference for the Promotion of the ILC Applied Metal R&D Co. Kuroki Kogyosho SAN-AI PLANT High Energy Accelerator Research Organization KYOCERA Seibu Polymer Tokyo Institute of Technology ATOX Hiroshima University KYUSHU ELECTRIC POWER SEIKO EG&G Tokyo Kasei University azbil Hokkaido University MAEDA Tokyo Metropolitan University AZUSA SEKKEI SH Copper Products Institute for Future Engineering MAYEKAWA MYCOM University of Tsukuba Canon SHIMADZU Iwete Medical University MEIDENSHA Waseda University Central Japan Railway SHIMZ Iwate University Metal Technology SHIN NIPPON AIR TECHNOLOGIES Yokohama National University CITIZEN WATCH Japan Atomic Energy Agency MIRAPRO SHINOHARA PRESS SERVICE Japan Synchrotron Radiation Research COSMOTEC Corporation Institute Mitsubishi Electric Sojitz Deloitte Touche Tohmatsu LLC Kinki University Mitsubishi Electric System & Service Sumitomo Heavy Industries DIA CONSULTANTS Mitsubishi Electric Tokki Systems Kobe University SUMITOMO MITSUI CONSTRUCTION Kogakuin University Electric Power Development Mitsubishi Heavy Industries Kyoto University Fujikura Mitsubishi Heavy Industries Mechatronics TAISEI Kyushu Committee for the ILC Asia Fujita Systems Taisei Research Institute Kyushu University FUJITSU MITSUI ENGINEERING & SHIPBUILDING TAIYO NIPPON SANSO LCC TAIYO, NAKAJIMA & KATO Fukken NEC Meiji Gakuin University TAKASAGO Thermal Engineering Fukuyama Consultants NEC-TOKIN Nagoya University TAKENAKA Gigaphoton Net One Systems Nara Women's University HAZAMA ANDO NICHICON CORPORATION Takenaka Civil Engineering & Construction National Institutes for Quantum and Radiological Science and Technology HITACHI NIHON KOSHUHA TEKKEN National Institute of Advanced Industrial Nikken Sekkei Hitachi High-Technologies TOBISHIMA Science & Technology Nippon Advanced Technology Hitachi Power Solutions Toda National Institutes of Natural Sciences NIPPON CIVIC CONSULTING ENGINEERS Hitachi Technologies and Services Tohoku Electric Power National Institute of Radiological Sciences Tokyo Denkai NIPPON STEEL & SUMITOMO METAL Hitachi Transport System Tokyo Electric Power Services Nihon University HITACHI ZOSEN Nishimatsu Construction Tokyu Construction Niigata University IBM Japan NOMURA PLATING TOSHIBA Ochanomizu University Iwatani NTT FACILITIES TOSHIBA ELECTRON TUBES & DEVICES Okayama Institute for Quantum Physics OBAYASHI JFE Steel Osaka University Okazaki Manufacturing Company TOYAMA JPD PSG OKUMURA TOYOTA TSUSHO KABUKI CONSTRUCTION RIKEN Nishina Center for Accelerator-Based ORIENTAL CONSULTANTS UBER Kajima Science OYO ULTRA FINISH TECHNOLOGY Saga University KANDENKO PACIFIC CONSULTANTS Urban Planning and Design Institute Seikei University KASHIYAMA INDUSTRIES PASCO Yachiyo Engineering Shinshu University Kawasaki Geological Engineering PENTA-OCEAN CONSTRUCTION (Total of 104) The University of Tokyo (Total of 42) Tohoku University KUMAGAI GUMI History of AAA 8 Jun, 2008 AAA was established (76members) July, 2008 Nonpartisan Parliamentary Federation for ILC was established Dec.,2008 Symposium was held by AAA & Federation Chief cabinet secretary Takeo Kawamura insisted, “Promoting of basic science can make people happier. ILC is attractive project because it gives big dream to young people” T. Kawamura Dec., 2011 Symposium was held by AAA & Federation
Prime minister Yoshihiko Noda addressed. R. Heuer Oct., 2012 Symposium was held by AAA & JPC (Guest speaker : Prof. Rolf Heuer) Mr. Ryu Shionoya joined symposium and addressed. Dec., 2012 TDR completion ceremony was held by AAA & GDE April, 2013 US-Japan Advanced Science & Technology Symposium Oct., 2013 International Symposium on ILC Dec., 2014 AAA restarted as a general incorporated association April, 2015 ILC Tokyo event (500 guests from many countries) Feb., 2016 US-Japan Political Leader’s Forum on Advanced S & T 4 Groups of AAA 9
Technology Study Gr. Outreach Gr. to seek directionalities on advanced to inform the public of accelerator with ILC, and to integrate possibilities and significance “manufacturing technologies” from a of advanced accelerator and variety of industrial fields to create ILC, through a variety events innovative scientific technologies. and media exposure.
CIVIL Gr. to contribute to smoothly host ILC in Japan with studying civil issue.
Large Project Study Gr. to study how to reach a consensus with understanding the location issue in order to realize ILC in Japan, and to study proper organization for promoting ILC. Activities of Technical Study Group 10
46 Seminars 16 working group (WG) meetings Superconducting Accelerator WG Green ILC WG Visit to Accelerator Lab.(KEK STF) Operation training of superconducting accelerator
Seminar Visit to Lab Training Symposiums on Advanced Accelerator 11
M. Yoshioka R. D. Heuer A. Suzuki M. Tsujii #20 Symposium in Tokyo
S. Komamiya J. Kawaguchi #17 Symposium in Washington, D.C.
H. Yamamoto M. Ie
H. Murayama S. Yamashita H. Shimomura D. P. Poneman T. Masukawa Symposiums at the various cities in Japan 12
Total Number of Participants No.17 Washington, D.C. 8000 74607490 No.22 Washington, D.C. 66306660 7000 59806230 No.26 Washington, D.C. 51805210 6000 47505000 428043804580 No.28 Washington, D.C. 5000 363037803930 3430 4000 283029803130 3000 2530 No.11 Sapporo 1630 2000 930 1180 1380 1000 150 330 530 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 No.8 Oushu No.23 Oushu No.4 Fukuoka No.6 Kyoto No.18 Niigata No.27 Oushu No.9 Fukuoka No.13 Fukuoka No.3 Hiroshima No.15 Matsumoto No.2 Sendai Participants No.16 Sendai 100-199
200-299 No.21 Tsukuba 300-399
400-499 No.1 Tokyo No.19 Tokyo No.7 NAGOYA No.5 Tokyo No.20 Tokyo 500- No.10 Tokyo No.24 Tokyo No.12 Tokyo No.25 Tokyo No.14 Tokyo Contents 13
AAA activities Accelerator Science and Industry Toward realization of ILC Accelerator- Pyramid 14
LHC(CERN)
Number in the world
1~5 High end Accelerator for particle Physics RIKEN SACLA European XFEL ~ 10 20 Large project for science & technology Euro XFEL
More than 100 Advanced accelerator for Radio Therapy New usage development
More than 10,000 General purpose machine (USD 3.5Billion*) (Medical, Industry,・・・
(USD 500Billion*) Products derived from accelerator technologies
*) ”Accelerators for America’s Future” , 2010, Department of Energy, USA Accelerator industry in Japan 15 Accelerators Supported by Various Technologies 16
■RF Source (Klystron etc. ■RF Component ■Superconducting Magnet (Waveguide, ■Superconducting Cavity Coupler etc.) ■Cryostat Superconducting Technology RF Technology Electromagnet
■RF Control System ■Beam Position Detection & ■Vacuum Pump Processing ■Vacuum Chamber RF & Beam Control Technology Detector
Vacuum Technology Japanese companies contribute to the advanced 17 accelerator projects in the world Companies which have contributed to LHC Company Products Toshiba corporation Superconducting magnet, TDC chip Furukawa, Ltd. Superconducting cable IHI corporation 1.8K refrigeration units Nippon steel, Ltd. Non-magnetic steel plate JFE steel corporation Non-magnetic steel plate Kaneka corporation Insulation film for SC wire Hitachi Cable, Ltd. Superconducting cable Kawasaki Heavy Industries, Ltd. Cryostat for Liquid-Ar, CMS end york Sumitomo Chemical Aluminum for SC Cable Kyocera corporation Ceramics duct Fujikura, Ltd. Rad-hard optical fibers Hamamatsu photonics K. K. Photo-tube, Silicon sensor, SCT module Rinei Seiki, Co., Ltd. TGC(Thin Gap Chamber) trigger chamber Nippon Mektron, Ltd. Cu/Polyimide flexible circuits Arisawa Manufacturing Co., Ltd. Polyimide film Japanese companies contribute to the advanced 18 accelerator projects in the world Companies which have contributed to Euro-XFEL Company Products Tokyo Denkai Co., Ltd. Pure Niobium Sheet Toshiba Electrical Tubes and Devices Co., Ltd. L-band Klystron Kyocera corporation Feed through flange
Companies which have contributed to other projects Company Products Mitsubishi Heavy Industries S-band accelerator Superconducting accelerator Mitsubishi Electric Superconducting accelerator Superconducting magnet Toshiba corporation Normal conducting cavity Toyama Beam line instruments Contents 19
AAA activities Accelerator Science and Industry Toward realization of ILC Study of technology spillover effect of ILC 20
Key Tech. from ILC High reliability Energy Recovery Linac New material RF system / Monochrome X-ray Drug discovery Spillover Tech. Cancer therapy Transmutation New application High power neutron source
Superconducting High performance RF technology Hard disk technology
Ultra precise Polarized ILC Ultra-short pulse Ultra precise measurement method electron beam Lithography for magnetic material
High sensitivity Data analysis sensor
High performance Big data analysis inspection technology Cloud computing
Information & Early detection of cancer Communication High reliability of industrial machines Technology Economical Benefit of ILC 21
Takashi Nishioka(Chair of AAA, former President of MHI) Two view points are significant regarding ILC. One is the cutting-edge manufacturing and the other is to make the model case to improve Japanese industry. In this several decades, the mass production has been our strong advantage, but in the future we need to create new fields. New Intellect should become a core competence of Japan. (24, Oct., 2012 「Forum on advanced science and industry」)
Local economical Impact Technology Improvement
Economical effect from technology improvement by International academic tackling the cutting edge city manufacturing
Creating New Market Human Resource New products and new Gathering superior people from market created from ILC all over the world and pushing technology up our educational level, especially science field Innovation The new idea from ILC leading to innovation beyond our imagination Conclusion 22
AAA have promoted the science and technology of the accelerators and ILC project. Japanese companies contribute to not only domestic but also foreign projects relating accelerator. AAA conducted domestic & international events to publicize the ILC.