• Y. Jongen, M. Abs, A. Blondin, W. Kleeven, S. Zaremba, D. Vandeplassche
  IBA, Louvain-la-Neuve
• V. Alexandrov, S. Gursky, G. Karamysheva, N. Kazarinov, S. Kostromin, N. Morozov, V. Romanov, N. Rybakov, A. Samartsev, E. Samsonov, G. Shirkov, V. Shvetsov, E. Syresin, A. Tuzikov
  JINR, Dubna

Car­bon ther­a­py is most ef­fec­tive method to treat the re­sis­tant tu­mors. A com­pact su­per­con­duct­ing isochronous cy­clotron C400 has been de­signed by IBA-JINR col­lab­o­ra­tion. This cy­clotron will be used for ra­dio­ther­a­py with pro­ton, he­li­um and car­bon ions. The ¹²C⁶⁺ and ⁴He²⁺ ions will be ac­cel­er­at­ed to the en­er­gy of 400 MeV/amu and will be ex­tract­ed by elec­tro­stat­ic de­flec­tor, H₂⁺ ions will be ac­cel­er­at­ed to the en­er­gy 265 MeV/amu and pro­tons will be ex­tract­ed by strip­ping. The mag­net yoke has a di­am­e­ter of 6.6 m, the total weight of the mag­net is about 700 t. The de­signed mag­net­ic field cor­re­sponds to 4.5 T in the hills and 2.45 T in the val­leys. Su­per­con­duct­ing coils will be en­closed in a cryo­stat; all other parts will be warm. Three ex­ter­nal ion sources will be mount­ed on the switch­ing mag­net on the in­jec­tion line lo­cat­ed bel­low of the cy­clotron. The main pa­ram­e­ters of the cy­clotron, its de­sign, the cur­rent sta­tus of de­vel­op­ment work on the cy­clotron sys­tems and sim­u­la­tions of beam dy­nam­ic will be pre­sent­ed.