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MOPC100 |
Design Status of the FAIR Synchrotrons SIS100 and SIS300 and the High Energy Beam Transport System
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298 |
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- P. J. Spiller, U. B. Blell, O. Boine-Frankenheim, E. S. Fischer, G. Franchetti, F. Hagenbuck, I. Hofmann, J. E. Kaugerts, M. Kauschke, M. Kirk, H. Klingbeil, A. Kraemer, D. Krämer, G. Moritz, C. Omet, N. Pyka, H. Ramakers, S. Ratschow, A. Saa-Hernandez, M. Schwickert, J. Stadlmann, H. Welker
GSI, Darmstadt
- A. D. Kovalenko
JINR, Dubna, Moscow Region
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The present status of system- and technical design and R&D for the new heavy ion synchrotrons SIS100 and SIS300 and the HEBT system is summarized. The overall machine planning and the general layout has been completed and the detailed technical machine design has been started. Device and component specifications, technical parameter lists and technical design reports are in preparation with the goal to enable international partners or industry to finalize the component design to achieve production readiness. In the frame of international working groups the distribution and sharing of the work packages, especially of the cryomagnetic system is under discussion.
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WEOBM01 |
R&D Activities Aimed at Developing a Curved Fast Ramped Superconducting Dipole for FAIR SIS300
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1950 |
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- P. Fabbricatore, S. Farinon, R. Musenich
INFN Genova, Genova
- F. Alessandria, G. Bellomo, G. Volpini
INFN/LASA, Segrate (MI)
- U. Gambardella
INFN/LNF, Frascati (Roma)
- J. E. Kaugerts, G. Moritz
GSI, Darmstadt
- R. Marabotto
ASG, Genova
- M. Sorbi
Universita' degli Studi di Milano & INFN, Segrate
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One of the basic components of the FAIR facility, under development at GSI, is the synchrotron SIS300 (300 Tm rigidity). In order to reach the required high intensities of proton and heavy ion beams, the magnets of this synchrotron have to be pulsed from the injection magnetic field of 1.5 T up to 4.5 T maximum field at the rate of 1 T/s. These 7.8 m long, cos-teta shaped coils with a 100 mm bore have the particular characteristic to be curved (the sagitta is 114 mm). All these aspects demand for a challenging R&D, aimed at the development of a low loss conductor and of a suitable winding technology for curved coil. Further design issues are related to the optimization of the stress distribution involving materials able to hold 107 cycles and to the maximization of the heat transfer to coolant (supercritical helium at 4.7 K). At the present time, design activities are going on with the aim to design, construct and test a 3.8 m long prototype within 2009. In order to achieve this objective, several intermediate milestones are included in the R&D program. One of the most challenging is the industrial development of a method for winding a curved cos-teta dipole.
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Slides
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