Author: Grigorenko, S.V.
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THCAMH04 MCC-30/15 Cyclotron-based System for Production of Radionuclides Project. 114
 
  • A.P. Strokach, Yu.N. Gavrish, S.V. Grigorenko, V.I. Grigoriev, M.L. Klopenkov, R.M. Klopenkov, V.G. Mudrolyubov, G.V. Muraviov, V.I. Nikishkin, V.I. Ponomarenko
    NIIEFA, St. Petersburg, Russia
 
  The projected MCC-30/15 cyclotron system is intended for operation in high-technology nuclear medicine centers. The system consists of a cyclotron, target systems for production of radionuclides in liquid, gaseous and solid states and a beamline for transport of accelerated ions to final units. The updated MCC-30/15 cyclotron with new systems for external injection, RF power supply and acceleration will ensure accelerated proton and deuteron beams in energy ranges of 15 - 30 and 9 - 15 MeV and currents not lower than 200 and 70 mkA respectively. Target systems are equipped with systems for remote replacement of gaseous and liquid targets. Modular configuration of the beamline will allow the production of isotopes and carrying out of researches to be performed in separate experimental halls.  
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THCAMH05 The CC-18/9M Cyclotron System for Production of Isotopes for PET 117
 
  • R.M. Klopenkov, M.A. Emeljanov, A.V. Galchuck, Yu.N. Gavrish, P.A. Gnutov, S.V. Grigorenko, V.I. Grigoriev, M.L. Klopenkov, L.E. Korolev, A.N. Kuzhlev, A.G. Miroshnichenko, V.G. Mudrolyubov, G.V. Muraviov, V.I. Nikishkin, V.I. Ponomarenko, K.E. Smirnov, Yu.I. Stogov, A.P. Strokach, S.S. Tsygankov, O.L. Veresov
    NIIEFA, St. Petersburg, Russia
  • I.A. Ashanin, I.P. Grigoryev, A.S. Guchkin
    CHTD, Moscow, Russia
 
  The CC-18/9M cyclotron system has been designed, manufactured and delivered to JSC "NIITFA", Moscow to be operated in a pilot PET center. Acceptance tests have been conducted; design parameters of the updated cyclotron have been obtained: energy variation of accelerated proton and deuteron beams within the ranges of 12 - 18 and 6 - 9 MeV with currents of 150 and 50 mkA respectively. For the first time in NIIEFA practice the cyclotron is equipped with a target system intended for the production of F-18 and C-11 radionuclides for PET. At present the cyclotron system in the PET center is put into commercial operation.  
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TUCASH04 Physical Start-up of the C-80 Isochronous Cyclotron 179
 
  • Yu.N. Gavrish, A.V. Galchuck, S.V. Grigorenko, A.N. Kuzhlev, V.G. Mudrolyubov
    NIIEFA, St. Petersburg, Russia
  • D.A. Amerkanov, S.A. Artamonov, E.M. Ivanov, G.A. Riabov, V.I. Yurchenko
    PNPI, Gatchina, Leningrad District, Russia
 
  Works on the creation of a cyclotron for the acceleration of H ions at energies ranging from 40 up to 80 MeV have been carried out over a number of years in PNPI, the National Research Centre Kurchatov Institute. The cyclotron is intended for production of a wide assortment of radioisotopes for medicine including radiation generators (Sr-Rb, Ge-Ga), proton therapy of ophthalmic diseases, tests of radioelectronic components for radiation resistance, studies in the field of nuclear physics and radiation material science. In June, 2016 physical start-up of the cyclotron was realized in the pulsed mode; the beam of ~10 mkA was obtained at the inner probe, the extracted beam at the first diagnostic device was ~8 mkA and ~7.5 mkA at the final diagnostic device of the beamline. In the near future we plan to obtain the design intensity of 100 mkA.  
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TUCASH05 The CC1-3 Cyclotron System. Installation and Test Results 182
 
  • V.G. Mudrolyubov, A.V. Antonov, M.A. Emeljanov, A.V. Galchuck, Yu.N. Gavrish, S.V. Grigorenko, V.I. Grigoriev, L.E. Korolev, M.T. Kozienko, A.N. Kuzhlev, A.G. Miroshnichenko, G.V. Muraviov, V.I. Nikishkin, V.I. Ponomarenko, K.E. Smirnov, Yu.I. Stogov, A.P. Strokach, S.S. Tsygankov, O.L. Veresov
    NIIEFA, St. Petersburg, Russia
 
  A unique CC1-3 cyclotron system has been installed in the Vinca Institute of Nuclear Sciences, Belgrade, Serbia to be used in the laboratory of nuclear-physical methods of the elemental analysis A compact cyclotron and a beam shaping system ensure an accelerated proton beam in a wide range of energies from 1 to 3 MeV with a spectrum width not more than 0.1%. Tests of the cyclotron system have been carried out at proton energies of 1.0, 1.7 and 3 MeV with the beam transport to the final diagnostic device.  
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