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Title |
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| TUPP120 |
Current Status of the IBA C400 Cyclotron Project for Hadron Therapy
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1806 |
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- Y. Jongen, M. Abs, A. Blondin, W. J.G. M. Kleeven, D. Vandeplassche, S. Zaremba
IBA, Louvain-la-Neuve
- V. Aleksandrov, S. Gurskiy, G. A. Karamysheva, N. Yu. Kazarinov, S. A. Kostromin, N. A. Morozov, E. Samsonov, V. Shevtsov, G. Shirkov, E. Syresin, A. Tuzikov
JINR, Dubna, Moscow Region
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Compact superconducting isochronous cyclotron C400 has been designed at IBA (Belgium) in collaboration with the JINR (Dubna). This cyclotron will be used for radiotherapy with proton, helium or carbon ions. 12C6+ and 4He2+ ions will be accelerated to 400 MeV/u energy and extracted by electrostatic deflector, H2+ ions will be accelerated to the energy 250MeV/u and extracted by stripping. We describe the parameters of the cyclotron, the current status of development work on the cyclotron systems. Reports on the status of the C400 project have been given regularly. Therefore, we will focus on the progress which has been achieved since recent reports in Cyclotron 2007 and EPAC 2006 conferences. The project will be ready to begin construction in the nearest future.
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| THPP015 |
Design of a Versatile Injector for a Low-energy Experimental Platform at KACST
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3404 |
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- M. O.A. El Ghazaly, A. A. Alzeanidi
KACST, Riyadh
- V. Aleksandrov
JINR, Dubna, Moscow Region
- A. I. Papash
MPI-K, Heidelberg
- C. P. Welsch
GSI, Darmstadt
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At the National Centre for Mathematics and Physics (NCMP), at the King Abdulaziz City for Science and Technology (KACST), Saudi Arabia, a multi-purpose low-energy experimental platform is presently being developed in collaboration with the University of Heidelberg, Germany. The aim of this project is to enable a multitude of low-energy experiments with most different kinds of ions both in single pass setups, but also with ions stored in a low-energy electrostatic storage ring. In this contribution, the injector of this complex is presented. It was designed to provide beams with energies up to 30 kV/q and will allow for switching between different ion sources from e.g. duoplasmatron to electrospray ion sources and to thus provide the users with a wide range of different beams. We present the overall layout of the injector with a focus on the optical design and the foreseen diagnostic elements.
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| THPP065 |
3D Simulation of the Axial Injection Beam Line of DC350 Cyclotron
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3509 |
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- N. Yu. Kazarinov, V. Aleksandrov, V. Shevtsov, A. Tuzikov
JINR, Dubna, Moscow Region
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DC-350 is the novel cyclotron designed in Flerov Laboratory of Nuclear Reaction of Joint Institute for Nuclear Research. It is intended for the nuclear and applied physics experiments. The axial injection channel of the DC-350 cyclotron gives possibility for transportation of the high intensity ion beam from Li to Bi obtained in the superconducting ECR-ion source (SECR). The beam focusing in the beam line after the analyzing bending magnet is provided by solenoidal lenses. The linear and sinusoidal bunchers installed in the vertical part of the channel are used for increasing of the accelerating efficiency. The 3D simulation results of the focusing and bunching systems of the axial injection beam line are presented.
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