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| MOPEA010 | Transfer of RIB’s between ISOL Target and Experiment Hall at SPIRAL 2 | radiation, target, ion, remote-handling | 85 |
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Funding: The authors would like to acknowledge the German-French and Russian-French agreements enabling the allocation of resources : IN2P3 - GSI (id. 12-69), and IN2P3 - JINR (id. 11-88) collaborations. The production of intense radioactive beams requires a high power target, an efficient beam selection and transport, safe operations and a reliable-cost effective facility. The SPIRAL 2 project a so called second generation RIB facility is under construction at GANIL. The low energy RIB’s will be produced by neutron induced fissions obtained from a 40 MeV primary beam (deutons) and a graphit convertor. Several issues must be addressed in order to insure the safety rules and ultimately the performances requested by the scientific programme. Among them, the space charge dominated regime during the extraction of the beam after the target and the ion source, the compromise between beam transmission, rejection of the light-ion beam, and management of the main safety features. Most of the investigations currently in progress are devoted to the nuclear engineering, the maintenance and the multi-scale integration of the segmented beam line with the infrastructure. * RIB dynamics of the SPIRAL 2 Transfer Line, HIAT 2012 ** Simulation of Hollow Beam formation at SPIRAL 2, IPAC 2011 *** A Secondary Radioactive Beam Line Section for SPIRAL 2, HIAT 2009 |
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| MOPFI029 | The Construction Progress of Beijing Radioactive Ion-beam Facility | ion, cyclotron, ion-source, vacuum | 345 |
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| The Beijing Radioactive Ion-Beam Facility (BRIF) is being constructed at CIAE. The project consists of a 100 MeV high intensity cyclotron CYCIAE-100, an ISOL system with a mass resolution of 20000, and a superconducting booster. The construction of the building was started on April 28, 2011 and the roof was sealed on Jan. 16, 2012. The on-site installation conditions have been ready since Sept. 27, 2012. Up to now, the fabrication of all major components for CYCIAE-100 have been completed, including the main magnet system, the RF system, ion source and injection, main vacuum, etc. The equipment fabrication for the ISOL system has been completed and magnetic mapping and shimming is being performed on the large-scale analysis magnet. The fabrication of the major components for the superconducting booster has been accomplished, and the work on copper-niobium sputtering is under way. At present, the installation and assembly is in full swing and the beam commissioning is to predicted to be finished in mid 2013. Taking advantage of the experiences accumulated on the CRM cyclotron with beam up to 430 uA, it is likely that the first beams of 100 MeV can be achieved by the end of 2013. | |||
| THPWO062 | Status of the RAON Accelerator Systems | target, cavity, ion, linac | 3898 |
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Funding: This work is made possible by the support of the Ministry of Science, ICT and Future Planning (MSIP) and the National Research Foundation (NRF) of the Republic of Korea. The RAON is the heavy ion accelerator being built in Korea to build the In-flight Fragment (IF) and Isotope Separation On-Line (ISOL) facilities to support cutting-edge researches in various science fields. Superconducting linac with 200 MeV/u, 400 kW is the driver for the IF facility and the 70 MeV, 70 kW H− cyclotron is the driver for the ISOL facility. These facilities are to provide high intensity stable beams and rare isotope beams for the users domestic and abroad. The design and prototyping efforts are under way such as superconducting cavities and magnets. Status of the RAON accelerator systems is presented. |
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