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Industry-Academia cooperation for promoting Advanced Accelerator
May 10, 2017 Masanori Matsuoka Secretary General, Advance Accelerator Association promoting science & technology (Tittle) I am very honor to be here and talk about our activity in Japan. I am Masanori Matsuoka, Secretary General of AAA.
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Accelerator Science and Industry Toward realization of ILC
Contents AAA activities Accelerator Science and Industry Toward realization of ILC (Contents) Today, I would like to talk about three items. The first item is the activities of AAA. And then I will explain the accelerator science and industry in Japan. Finally, I introduce the significant issue for realization of ILC.
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Accelerator Science and Industry Toward realization of ILC
Contents AAA activities Accelerator Science and Industry Toward realization of ILC (Contents #1) First item is about AAA activities.
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Outline of AAA The Advanced Accelerator Association Promoting Science & Technology (AAA) was established in June 2008 with 76 member companies / institutes, → 149(May,2017) 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 (Outline of AAA) AAA was established in 2008 with 76 members from the academia and the industry. Now we have 145 members as the result of continuing to increase. This may show that we Japanese people are very interested in the realization of ILC. We conduct not only to promote ILC, but also to widen the possibility of the advanced accelerator and inform the public about its significance. This is a photo when AAA was established. A man at the center of the front row is Mr. Kaoru Yosano who was a Chief Secretary of Japan. A man of right side of Mr. Yosano is Dr. Koshiba who was awarded Nobel Prize in Physics. And a man of left side of Mr. Yosano is Mr. Nishioka, Chairman of AAA. These three key persons and other members representing Japanese industry and academy made effort to establish AAA. You can see Mr. Miyanaga, President of MHI, Mr. Sakuyama, President of Mitsubishi Electric in this photo.
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AAA Organization Board of Directors General Meeting Honorary Chair:
Masatoshi Koshiba Chair: Takashi Nishioka General Meeting Corporate Organizations and Institutional Organizations Supreme Advisor: Kaoru Yosano Senior Advisor: Junichi Nishiyama Board of Directors Chair:Takashi Nishioka Vice Chair/Director: Atsuto Suzuki Director: Masanori Yamauchi Director: Mamoru Hatazawa Director: Hiroto Uozumi Director: Yasuyuki Ito Director: Masahiro Inagaki Director: Yuzo Onishi Auditor: Sachio Komamiya Secretariat Secretary General: Masanori Matsuoka Technology Study Gr. Leader: Hitoshi Hayano Outreach Gr. Leader: Hiroyuki Yoshizumi CIVIL Gr. Leader: Yuzo Onishi Large Project Study Gr. Leader: Satoru Yamashita
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Member List (Member List) This is a member list of the AAA.
(General Members) AKITA FINE BLANKING Applied Metal R&D Co. ATOX azbil AZUSA SEKKEI Canon Central Japan Railway CITIZEN WATCH COSMOTEC Corporation Deloitte Touche Tohmatsu LLC DIA CONSULTANTS Electric Power Development Fujikura Fujita FUJITSU Fukken Fukuyama Consultants Gigaphoton HAZAMA ANDO HITACHI Hitachi High-Technologies Hitachi Power Solutions Hitachi Technologies and Services Hitachi Transport System HITACHI ZOSEN IBM Japan Iwatani JFE Steel JPD KABUKI CONSTRUCTION Kajima KANDENKO KASHIYAMA INDUSTRIES Kawasaki Geological Engineering KUMAGAI GUMI KURARAY Kuroki Kogyosho KYOCERA KYUSHU ELECTRIC POWER MAEDA MAYEKAWA MYCOM MEIDENSHA Metal Technology MIRAPRO Mitsubishi Electric Mitsubishi Electric System & Service Mitsubishi Electric Tokki Systems Mitsubishi Heavy Industries Mitsubishi Heavy Industries Mechatronics Systems MITSUI ENGINEERING & SHIPBUILDING NEC NEC-TOKIN Net One Systems NICHICON CORPORATION NIHON KOSHUHA Nikken Sekkei Nippon Advanced Technology NIPPON CIVIC CONSULTING ENGINEERS NIPPON STEEL & SUMITOMO METAL Nishimatsu Construction NOMURA PLATING NTT FACILITIES OBAYASHI Okazaki Manufacturing Company OKUMURA ORIENTAL CONSULTANTS OYO PACIFIC CONSULTANTS PASCO PENTA-OCEAN CONSTRUCTION R&K SAN-AI PLANT Seibu Polymer SEIKO EG&G SH Copper Products SHIMADZU SHIMZ SHIN NIPPON AIR TECHNOLOGIES SHINOHARA PRESS SERVICE Sojitz Sumitomo Heavy Industries SUMITOMO MITSUI CONSTRUCTION TAISEI Taisei Research Institute TAIYO NIPPON SANSO TAIYO, NAKAJIMA & KATO TAKASAGO Thermal Engineering TAKENAKA Takenaka Civil Engineering & Construction TEKKEN TOBISHIMA Toda Tohoku Electric Power Tokyo Denkai Tokyo Electric Power Services Tokyu Construction TOSHIBA TOSHIBA ELECTRON TUBES & DEVICES TOYAMA TOYOTA TSUSHO UBER ULTRA FINISH TECHNOLOGY Urban Planning and Design Institute Yachiyo Engineering (Total of 104) (Institutional Members) Chiba University of Commerce High Energy Accelerator Research Organization Hiroshima University Hokkaido University Institute for Future Engineering Iwete Medical University Iwate University Japan Atomic Energy Agency Japan Synchrotron Radiation Research Institute Kindai University Kobe University Kogakuin University Kyoto University Kyushu Committee for the ILC Asia Kyushu University LCC Meiji Gakuin University Nagoya University Nara Women's University National Institutes for Quantum and Radiological Science and Technology National Institute of Advanced Industrial Science & Technology National Institutes of Natural Sciences Nihon University Niigata University Ochanomizu University Okayama Institute for Quantum Physics Osaka University PSG RIKEN Nishina Center for Accelerator-Based Science Saga University Seikei University Shinshu University The University of Tokyo Tohoku University Tohoku Conference for the Promotion of the ILC Tokyo Institute of Technology Tokyo Kasei University Tokyo Metropolitan University University of Tsukuba Waseda University Yokohama National University (Total of 41) (Member List) This is a member list of the AAA. I hope you to see the data in the handout. 145 members get together and study a lot of things about ILC and the other advanced accelerator.
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History of AAA 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 addressed Dec., 2011 Symposium was held by AAA & Federation Prime minister Yoshihiko Noda addressed. 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., International Symposium on ILC Dec., AAA restarted as a general incorporated association April, ILC Tokyo event (500 guests from many countries) Feb., US-Japan Political Leader’s Forum on Advanced S & T May&Jun., Collaboration Opportunities on Fusion and Accelerator Technologies, and Projects, between Spanish and Japanese Organizations Oct., ILC special session at IEEE (Hon. Ito and Hon. Shina addressed) Dec.,2016 LCWS Japan (Hon. Kawamura addressed) R. Heuer T. Kawamura (History of AAA) Then, I will explain the history of the AAA. The AAA was established in June, 2008. In July of the same year, the nonpartisan parliamentary group was established, and it started the activities which cooperated with the AAA. Hon. Kawamura who was the Chief Cabinet Secretary presented at our symposium and stressed the importance of basic science and the ILC. He is the present chairman of the parliamentary group now. After that, the many events have been conducted with researchers, politicians and industry not only from domestic but also abroad. Dr. Rolf Heuer who was the head of CERN joined our symposium and presented the attraction of the particle physics, or the significance of ILC. The participants understood a lot of things about the physics and the space deeply thanks to his direct contact with the local people. The ceremony for celebrating TDR completion was conducted in 2012. At this time, we connected three bases of Japan, the U.S. and Europe, and shared a delight with people in all over the world. In 2014, we restarted as a general corporation and we became to focus on the activity for obtaining the international cooperation which is indispensable for the ILC realization. “US-Japan Political Leader’s Forum on Advanced Science and Technology” was held in February, this year. Japan-U.S. lawmakers reached a consensus that they would continuously discuss in the field of big science including the ILC.
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Four Groups of AAA Technology Study Gr. (Leader: Hitoshi Hayano)
to seek directionalities on advanced accelerator with the ILC, and to integrate “manufacturing technologies” from a variety of industrial fields to create innovative scientific technologies. Outreach Gr. (Leader: Hiroyuki Yoshizumi) to inform the public about possibilities and significance of advanced accelerator and the ILC, through a variety events and media exposure. CIVIL Gr. (Leader: Yuzo Onishi) to contribute to hosting the ILC smoothly in Japan with studying civil issue. (4 Groups of AAA) AAA have four groups of the technology study group, the outreach group, the CIVIL group and the large project study group. At the technology study group seek directionalities on advanced accelerator with ILC. And they investigate “manufacturing technologies” from a variety of industrial field to create innovative scientific technologies. The outreach group inform the general public about possibilities and significance of advanced accelerator and the ILC, through a variety events such as the symposium and media exposure. The CIVIL group contribute to hosting the ILC smoothly in Japan with studying civil issue. Finally, the large project study how to reach a consensus with understanding the location issue in order to realize the ILC in Japan, and to study proper organization for promoting the ILC in collaboration with law makers and government officials. Large Project Study Gr. (Leader: Satoru Yamashita) to study how to reach a consensus with understanding the location issue in order to realize the ILC in Japan, and to study proper organization for promoting the ILC.
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Activities of Technology Study Group
47 Seminars 17 working group (WG) meetings Superconducting Accelerator WG Green ILC WG Visit to Accelerator Lab.(KEK STF) Operation training of superconducting accelerator (Activities of Technology Study Group) The technology study group conducts technical seminars for the AAA members. We have held 46 seminars and 16 working group meetings for 8 years. We have exchanged valuable information about the technological challenges and the possibility of advanced accelerators including the ILC with the academia and industry attending. On the other hand, the researchers give us some information about the status of the ILC timely. A center one of photos is a view of visiting to KEK to see some advanced accelerators including ILC R&D. We also experienced the operation of the superconducting accelerator to improve our knowledge and skill. These activities may induce the innovation regarding the accelerator technology. Seminar Visit to Lab Training
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Symposiums on Advanced Accelerator
M. Yoshioka R. D. Heuer A. Suzuki M. Tsujii #20 Symposium in Tokyo S. Komamiya J. Kawaguchi #17 Symposium in Washington, D.C. (Symposiums on Advanced Accelerator ) This is a view of the symposium we sponsored. We invited the top-level lecturer from domestic and abroad. 28 times of symposium were held until now. " -- the universe -- " -- " -- medical treatment -- " -- that you understand the meaning of ILC or an accelerator is planning and performing the variously elaborative symposium through the theme which generally has [ which was said ] familiarity. By the questionnaire after performing symposium, the reply that the more remarkable one has understood the importance of ILC or an accelerator is obtained, and it is encouraged very much. This photograph is a situation in the symposium of the first overseas, and Washington, D.C. It gathered from Japan-U.S. industry, academia and government as 60 persons, and shared the importance of the latest technology promotion including ILC. While then Education, Culture, Sports, Science and Technology Minister Shimomura and Director acting ポネマン DOE were attended and becoming a very meaningful event, it became the important symposium which made the foothold of the subsequent Japan-U.S. event at this symposium. Today's symposium is an event of the beginning of Japan and Spain, and it is just wishing if the relation of both countries can be promoted increasingly taking advantage of this. こちらは、我々が主催したシンポジウムの様子です。 国内外からトップレベルの講師をお招きし、これまでに28回のイベントを開催しました。”宇宙“や”医療“といった、一般に親しみのあるテーマを通じて、ILCや加速器の意義を理解頂くなど、いろいろと工夫をこらしたシンポジウムを企画し、実行しております。シンポジウムを行った後のアンケートでは、かなりの方がILCや加速器の重要性を理解できたとの回答を頂いており、とても勇気づけられております。 この写真は、初めての海外でのシンポジウム、ワシントンDCでの、様子です。日米の産学官から60名ほどが集まり、ILCを始めとする最先端科学技術推進の重要性を共有しました。このシンポジウムには、当時の下村文部科学大臣、また、ポネマンDOE長官代行が臨席され、非常に意義深いイベントとなると共に、その後の日米イベントの足がかりを作った重要なシンポジウムとなりました。 まさに、本日のシンポジウムは、日本とスペインの最初のイベントであり、これをきっかけに、両国の関係をますます深めて行ければと願っています。 H. Yamamoto M. Ie H. Murayama S. Yamashita H. Shimomura D. P. Poneman T. Masukawa
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Symposiums at the various cities in Japan
No.17 Washington, D.C. No.22 Washington, D.C. No.26 Washington, D.C. No.28 Washington, D.C. No.30 Spain No.11 Sapporo No.8 Oushu No.23 Oushu No.27 Oushu No.33 Oushu No.4 Fukuoka No.9 Fukuoka No.6 Kyoto No.18 Niigata No.13 Fukuoka No.15 Matsumoto No.3 Hiroshima No.2 Sendai No.16 Sendai Participants No.21 Tsukuba (Symposiums at the various cities in Japan) This is the slide which summarized the holding situation of the symposium which this conference sponsored. This is a Japanese map although you of Spain may not not much have familiarity. From Hokkaido to Kyushu, Japan is the islands which stand in a row for a long time southwest from northeast. As for us, the surroundings are sending the meaning of ILC or a tip accelerator for the Japan whole country through symposium. Very much, it stated and I have obtained attendance also in 7500 persons as indicated in the upper graph. When large, you sometimes participate also in 800 persons at once. This thinks that the height of the Japanese's concern about Japanese attraction of ILC is told. Moreover, we are also tackling the work and distribution of an animation or comics on the theme of ILC, and are just going to send the meaning of ILC or a tip accelerator using media. こちらは、当協議会が主催したシンポジウムの開催状況をまとめたスライドです。 スペインの皆様にはあまり馴染みがないかも知れませんが、これは、日本の地図です。 北海道から九州まで、日本は北東から南西に長く連なる列島でございます。 我々は、日本全国を回り、ILCや先端加速器の意義をシンポジウムを通じて発信しております。上のグラフに記載してございますとおり、実に、述べ7500名もの方々にご出席を頂いております。多いときには、一度に800名もの方に参加頂くこともございます。これは、ILCの日本誘致に対する日本国民の関心の高さを物語っていると考えています。 また、我々は、ILCをテーマにした動画やマンガの制作・頒布にも取組んでおり、ILCや先端加速器の意義をメディアを使って発信しているところでございます。 No.19 Tokyo No.20 Tokyo No.24 Tokyo No.25 Tokyo No.29 Tokyo No.31 Tokyo No.32 Tokyo No.1 Tokyo No.5 Tokyo No.10 Tokyo No.12 Tokyo No.14 Tokyo No.7 NAGOYA 500-
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The latest event - Science × HELLO KITTY-
Date July 27, 2016 Place Tokyo Lecturer Lyn Evans & Hitoshi Murayama Audience Executive of IT Company, Novelist, Space Designer, etc. We expect the influencers to understand ILC and distribute it widely. (The latest event – Science $ Hello Kitty)
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Accelerator Science and Industry Toward realization of ILC
Contents AAA activities Accelerator Science and Industry Toward realization of ILC (Contents #2) The next theme is about accelerator science and industry.
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Accelerator- Pyramid LHC(CERN) Number in the world
High end Accelerator for particle Physics 1~5 RIKEN SACLA European XFEL 10 ~20 Large project for science & technology Euro XFEL More than 100 Advanced accelerator for New usage development Radio Therapy Innovative technologies, New applications, ・・・ Elemental technologies, Cost reduction, Standardization, ・・・ More than 10,000 (USD 3.5Billion*) General purpose machine (Medical, Industry,・・・ (Accelerator- Pyramid) We are calling this the accelerator pyramid. In realizing it, an accelerator for the latest particle physics experiment which is represented by the LHC accelerator needs to establish high technology. The broad accelerator for technology research which is the following class is realized using the technology and equipment which were obtained with the latest accelerator. For example, X-ray-free-electron-laser institutions, such as SACLA in Japan and European XFEL which construction can be advancing in Europe, etc. are the example. It is the feature that the sector not only basic research but called [ for example ] development of a high-performance tire and new medicine development in the accelerator of this class is also used widely. Furthermore, the third class is an accelerator which is called the particle radiotherapy equipment for medical treatments and which was redeveloped along with the purpose. On this class, the product never realized with old technology uses accelerator technology as a key, and there are many realized examples and there are. Furthermore, although the principle called electron beam welding is an accelerator, it has a thing already called an accelerator no longer and a product using it. These foot is very large, and for the property of DOE, if an annual 500 billion dollar is also attained to, the trial calculation is made. n the Mitsubishi 重工, although manufacture of the accelerator was started 60 years or more ago, in that case, he has heard that our airplane production technology was utilized. That is, in order to realize the latest accelerator, it is an example from which the leading-edge technology of another field is utilized, and also this evolves. Moreover, although it became my own talk, it was engaged in development of a superconducting accelerator about 20 years ago. Those days, electron beam welding was used for manufacture of a nuclear plant, and manufacture of the superconducting accelerator was tried using this technology. Those days, Mr. Peter Kneisel of the Jefferson research institute in the U.S. is invited to a company, and it has the experience I had various things taught to. I regard by all means that the technology of an accelerator has the technology of various fields, and deep relation as liking to understand. これは、我々が加速器ピラミッドと呼んでいるものです。 LHC加速器に代表されるような最先端の素粒子物理実験用の加速器は、それを実現するに当たって、高い技術を確立する必要があります。 最先端の加速器で得られた技術や装置を使って、次の階層である、幅広い科学技術研究用加速器が実現されます。例えば、日本にあるSACLAや、欧州で建設が進めれているEuropean XFELといった、X線自由電子レーザ施設などがその例です。 このクラスの加速器は、基礎研究ばかりではなく、たとえば、高性能タイヤの開発、新薬開発といった、産業分野でも広く用いられるのが特長です。 さらに、三番目の階層は、医療用の粒子線治療装置といった、目的に沿って再開発された加速器です。この階層では、これまでの技術では決して実現できなかった製品が加速器技術をキーとして、実現できた例が多くあります。 さらに、電子ビーム溶接といった、原理は加速器だけれども、既に加速器と呼ばれなくなったもの、またそれを使った製品があります。これらの裾野は非常に広く、DOEの資産では、年間500ビリオンドルにも及ぶと試算されています。 三菱重工では、60年以上前に加速器の製造を開始しましたが、その際には、当社の飛行機製造技術が活用されたと聞いています。つまり、最先端の加速器を実現するために、別の分野の最先端技術が活用され、さらにこれが進化していく例です。 また、私自身の話になりますが、約20年前、超伝導加速器の開発に従事しておりました。当時は、原子力プラントの製造に電子ビーム溶接を利用しており、この技術を使って、超伝導加速器の製造を試みました。当時、米国のジェファーソン研究所のピーター・クナイゼル氏を会社に招き、さまざまなことを教えて頂いた経験があります。 加速器の技術は、さまざまな分野の技術とつながりが深いことを是非、ご理解頂きたいと思います。 (USD 500Billion*) Products derived from accelerator technologies *) ”Accelerators for America’s Future” , 2010, Department of Energy, USA
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Accelerator industry in Japan
Let’s put the accelerator industry of Japan on the accelerator pyramid. Many companies in Japan are playing important roles in various fields from the latest accelerator for the particle physics to the application products. High end accelerators push up the top of this pyramid and contribute to widen the science and the technology related with the advanced accelerators.
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ILC Supported by Various Technologies
■Superconducting Magnet ■Superconducting Cavity ■Cryostat ■RF Source (Klystron etc. ■RF Component (Waveguide, Coupler etc.) Superconducting Technology RF Technology Electromagnet ■RF Control System ■Beam Position Detection & Processing (Accelerators Supported by Various Technologies) ILC is supported by various technologies which include superconductivity, cryogenic, high frequency and a ultra high vacuum. The members of AAA cover these technologies and we study the technical issue for the realization of ILC through the technical study group meeting. We exchange the information When ILC is realized, such various technology develops more and creation of new technology is also expected. 最先端の素粒子加速器として設計・開発が進められているILCも様々な技術で支えられています。 この中には、超伝導、極低温、高周波、真空といった技術が含まれます。 当協議会の会員にも、これらの技術を有する多様な企業がそろっており、技術部会の活動を通して、ILCを実現するための技術課題抽出や最新の技術情報共有を行っています。 ILCが実現することによって、これらのさまざまな技術がより高度化し、新しい技術の創出も期待されます。 ■Vacuum Pump ■Vacuum Chamber RF & Beam Control Technology Detector Vacuum Technology
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Japanese companies contribute to the advanced 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 Kaneka corporation Insulation film for SC wire Hitachi Cable, Ltd. 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 accelerator projects in the world) The Japanese accelerator-related company is playing an active part also overseas. This is a company list of Japan which contributed to LHC construction. A superconductive cable is begun and the sensor, an electromagnet, a freezer, etc. support the project with the state-of-the-art technology. 海外でも日本の加速器関連企業は活躍しています。 これは、LHC建設に貢献した日本の企業一覧でございます。 超伝導ケーブルを始め、センサーや電磁石、冷凍機など、最先端の技術でプロジェクトを支えています。
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Japanese companies contribute to the advanced 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 magnet Toshiba corporation Normal conducting cavity Toyama Beam line instruments This is an example of European XFEL. The Japanese company has stored niobium material of high purity, a klystron, feed through of high-frequency power, etc. which influence the performance of a superconducting accelerator. In addition, the Japanese company is playing an active part in overseas various accelerator projects. こちらは、European XFELの例です。日本の企業が超伝導加速器の性能を左右する、高純度のニオブ材料や、クライストロンや高周波電力のフィードスルーなどを収めています。 また、その他、海外の様々な加速器プロジェクトで、日本の企業が活躍しております。
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Accelerator Science and Industry Toward realization of ILC
Contents AAA activities Accelerator Science and Industry Toward realization of ILC (Contents #3) Finally, I will mention our activities toward the realization of the ILC.
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ILC Study of technology spillover effect of ILC Key Tech. from ILC
High reliability RF system Energy Recovery Linac / Monochrome X-ray New material Drug discovery Spillover Tech. Cancer therapy Nuclear Transmutation New application High power neutron source High performance Hard disk RF technology Superconducting technology ILC Ultra precise measurement method for magnetic material Polarized electron Ultra-short pulse beam Ultra precise Lithography High sensitivity sensor Data analysis (Study of technology spillover effect of ILC) The construction cost of the ILC is estimated 1 trillion yen. This investment will spend for the basic science fundamentally, but this idea may not be able to accept by the ordinary tax payer. We are considering that the ILC is not only for the basic science but also for the innovation which will be useful for all the people. This point of view is very important to obtain more understanding from general people. We studied technology spillover effect of the ILC to inform general people about the impact of our life as correctly as possible. The key technology from the ILC shows here in the red boxes. And yellow boxes are produced by technical derivation, and blue is products using them. For example, when superconducting accelerator technology ripens, the neutron source of large intensity and synchrotron orbital radiation equipment are miniaturized and used widely, and it can be expected that the exotic material development which is the use place, and development of a new medicine will be promoted. Moreover, when the reliability of a superconducting accelerator develops, I think that the way to nuclear transmutation technology is also opened. High performance inspection technology Big data analysis Cloud computing Information & Communication Technology Early detection of cancer High reliability of industrial machines
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Local economical Impact Technology Improvement
Economical Benefit of ILC 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 International academic city technology improvement by tackling the cutting edge manufacturing (Economical Benefit of ILC) Is any impact for Japan, as for ILC? Chairman Nishioka of the AAA is telling as follows at the symposium in 2012. “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.” I believe that development of regional economy, accumulation of the excellent talented people from overseas, improvement in technology, development of a new market, and creation of an innovation are expectable by hosting the ILC in Japan. I also want to realize the ILC in Japan, in that Japan would continue to contribute to the world by science and technology. Creating New Market Human Resource New products and new market created from ILC technology Gathering superior people from all over the world and pushing up our educational level, especially science field Innovation The new idea from ILC leading to innovation beyond our imagination
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Conclusion 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. (Conclusion) Finally it is a conclusion. The conference is promoting activity for technology development of accelerators including ILC. The Japanese company contributes to the accelerator project in and outside the country with technology. Towards ILC realization, a conference plans an event in and outside the country, and is sending the meaning of ILC widely. If much more exchange about technology can be promoted between Japan and Spain by considering today's symposium as a start, I will think a very wonderful thing. Thank you for your attention.
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