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Page |
| THIAKI01 |
Cavity Production and R&D in US Industry
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2670 |
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Abstract to be provided by speaker.
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Slides
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| THIAKI02 |
The US Industrial ILC RF Unit Cost Study
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2671 |
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- E. C. Bonnema
- J. J. Sredniawski
AES, Medford, NY
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A major goal of the ILC Global Design Effort (GDE) is to produce an ILC Reference Design Report and an ILC Technical Design Report. Physicists and policy-makers will use these reports to decide the future of the project. As part of these reports detailed concept, performance assessments, reliable international costing, an industrialization plan, siting analysis, as well as detector concepts and scope must be developed. As part of this effort, a contract for an industrial cost study for fabrication of the Cryomodules and RF Power Systems that make up the RF units of the ILC was commissioned to Advanced Energy Systems and their team partners, CPI and Meyer Tool. This presentation will discuss the methodology of the industrial cost study and summarize important assumptions. The public results and key cost drivers will be presented.
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Slides
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| THIAKI03 |
Design and Fabrication of Superconducting Cavities for STF
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2674 |
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- K. Sennyu
- H. Hara, M. Matsuoka
MHI, Kobe
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Some superconducting cavities developed at MHI recently are introduced. The outline of 4 STF (Superconducting RF Test Facility at KEK) baseline cavities designed and fabricated by MHI are described. Some problems and some improvements in the mass production of the superconducting cavity are reported.
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Slides
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| THIAKI04 |
Recent Activities in Accelerator Construction and STF Cryomodule
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2677 |
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- T. Semba
- Y. Chida, Y. Itou, T. Tagawa, Y. Tsujioka, T. Yoshinari
Hitachi Ltd., Ibaraki-ken
- N. Shibata
Hitachi High-Technologies Corp., Ibaraki-ken
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Hitachi has been involved with construction of various accelerator systems for over forty years, from small apparatuses for laboratory use to the large systems for national projects. Our recent results are: SRC (Superconducting Ring Cyclotron) sector magnets of RIKEN RI Beam Factory, J-PARC (Japan Proton Accelerator Research Complex) magnets and power-supplies in JAEA, etc. And also, we have been developed capacities on manufacturing superconducting and cryogenic equipments. These are the key technologies in fundamental science researches. For these two years, we have been practically participated to construct STF (Superconducting RF Test Facility) cryomodule as an R&D equipment for the future ILC. Its two 6-meter long cryostats are designed to contain maximum eight 9-cell cavities in total. After the high-accuracy manufacturing of large vacuum vessels and cryogenic components, we assembled the entire cryomodules with specially designed jigs. Cavities and some related parts were installed by KEK. Through this work, we shared the valuable experience of manufacturing and assembling process. This paper describes our recent activities in accelerator construction and STF cryomodule.
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Slides
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| THIAKI05 |
European Industries Potential Capabilities on Superconducting RF Accelerator Modules
|
2680 |
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European Industry has been supporting accelerator projects in the past and will be supporting future projects. Larger numbers of superconducting accelerator modules with guaranteed performance parameters have been supplied for example for LEP at CERN and superconducting cavities have been supplied also with guarantees for CEBAF at Jefferson Lab, the proton linear accelerator for the Spallation Neutron Source, Oak Ridge, and for the rf system for LHC. A significant number of cavities have been supplied in support of the TTF/ILC activities. With a view to the future European X-FEL linear accelerator it is expected that turn-key accelerator modules will be requested from industry. A review of the European Industries supplies in the past and present will be given to show their capabilities for the future ILC.
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Slides
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| THIAKI06 |
Progress in Cryomodules & Cavities in India
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2683 |
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Abstract to be submitted by author.
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