IPAC2016 - List of Authors (Karamysheva, G.A.)

Paper	Title	Page
TUPMR016	Research and Development of a Compact Superconducting Cyclotron SC200 for Proton Therapy	1262
	G.A. Karamysheva, S. Gurskiy, O. Karamyshev, S.A. Kostromin, N.A. Morozov, E.V. Samsonov, G. Shirkov JINR, Dubna, Moscow Region, Russia Y.F. Bi, G. Chen, K.Z. Ding, Y. Song ASIPP, Hefei, People's Republic of China
	According to the agreement between the Institute of Plasma Physics (IPP) of the Chinese Academy of Sciences in Hefei (China) and Joint Institute for Nuclear Research, Dubna, (Russia), the development of a superconducting isochronous cyclotron for proton therapy SC200 is started. The cyclotron will provide acceleration of protons up to 200 MeV with maximum beam current of 1 μA. We plan to manufacture in China two cyclotrons: one will operate in Hefei cyclotron medical center the other will replace Phasotron in Medico-technical Center JINR Dubna and will be used for further research and development of cancer therapy by protons. Now we present main parameters of cyclotron and simulation results of magnetic, accelerating and extraction systems.
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TUPMR017	Computer Modeling of Magnet for SC200 Superconducting Cyclotron	1265
	N.A. Morozov, O. Karamyshev, G.A. Karamysheva, E.V. Samsonov, G. Shirkov JINR, Dubna, Moscow Region, Russia Y.F. Bi, G. Chen, K.Z. Ding, Sh. Du, H. Feng, J. Ge, J. Li, X. Liu, Y. Song, J. Zheng ASIPP, Hefei, People's Republic of China
	The superconducting cyclotron SC200 for proton therapy is designing by ASIPP (Hefei, China) and JINR (Dubna, Russia) will be able to accelerate protons to the energy 200 MeV with the maximum beam current of 1 mkA. By computer simulation with 3D codes the cyclotron magnet principal parameters were estimated (pole radius 0.62 m, outer diameter 2.2 m, valley depth 0.3 m, height 1.22 m, weight ~30 t). The required isochronous magnetic field is shaped with accuracy some mT. Four fold symmetry and spiralized sectors with minimal gap 4 mm at extraction provide the stable beam acceleration till 10 mm from the pole edge.
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TUPMR018	Beam Tracking Simulation for SC200 Superconducting Cyclotron	1268
	O. Karamyshev JINR/DLNP, Dubna, Moscow region, Russia Y.F. Bi, G. Chen, K.Z. Ding, Y. Song ASIPP, Hefei, People's Republic of China G.A. Karamysheva, N.A. Morozov, E.V. Samsonov, G. Shirkov, S.G. Shirkov JINR, Dubna, Moscow Region, Russia
	The SC200 superconducting cyclotron for hadron therapy is under development by collaboration of ASIPP (Hefei, China) and JINR (Dubna, Russia). The accelerator will provide 200 MeV proton beam with maximum current of 1μA in 2017-2018. The cyclotron is very compact and light, the estimate total weight is about 30 tons and extraction radius is 60 cm. We have performed simulations of all systems of the SC200 cyclotron and specified the main parameters of the accelerator. Average magnetic field of the cyclotron is up to 3.5 T and the particle revolution frequency is about 45 MHz, these parameters increases the requirements for accuracy of the beam dynamics studies. We have designed and performed beam tracking starting from the ion source. Codes and methods used for the beam tracking are presented.
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Paper

Title

Page

Research and Development of a Compact Superconducting Cyclotron SC200 for Proton Therapy

1262

G.A. Karamysheva, S. Gurskiy, O. Karamyshev, S.A. Kostromin, N.A. Morozov, E.V. Samsonov, G. Shirkov
JINR, Dubna, Moscow Region, Russia
Y.F. Bi, G. Chen, K.Z. Ding, Y. Song
ASIPP, Hefei, People's Republic of China

According to the agreement between the Institute of Plasma Physics (IPP) of the Chinese Academy of Sciences in Hefei (China) and Joint Institute for Nuclear Research, Dubna, (Russia), the development of a superconducting isochronous cyclotron for proton therapy SC200 is started. The cyclotron will provide acceleration of protons up to 200 MeV with maximum beam current of 1 μA. We plan to manufacture in China two cyclotrons: one will operate in Hefei cyclotron medical center the other will replace Phasotron in Medico-technical Center JINR Dubna and will be used for further research and development of cancer therapy by protons. Now we present main parameters of cyclotron and simulation results of magnetic, accelerating and extraction systems.

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TUPMR017

Computer Modeling of Magnet for SC200 Superconducting Cyclotron

1265

N.A. Morozov, O. Karamyshev, G.A. Karamysheva, E.V. Samsonov, G. Shirkov
JINR, Dubna, Moscow Region, Russia
Y.F. Bi, G. Chen, K.Z. Ding, Sh. Du, H. Feng, J. Ge, J. Li, X. Liu, Y. Song, J. Zheng
ASIPP, Hefei, People's Republic of China

The superconducting cyclotron SC200 for proton therapy is designing by ASIPP (Hefei, China) and JINR (Dubna, Russia) will be able to accelerate protons to the energy 200 MeV with the maximum beam current of 1 mkA. By computer simulation with 3D codes the cyclotron magnet principal parameters were estimated (pole radius 0.62 m, outer diameter 2.2 m, valley depth 0.3 m, height 1.22 m, weight ~30 t). The required isochronous magnetic field is shaped with accuracy some mT. Four fold symmetry and spiralized sectors with minimal gap 4 mm at extraction provide the stable beam acceleration till 10 mm from the pole edge.

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TUPMR018

Beam Tracking Simulation for SC200 Superconducting Cyclotron

1268

O. Karamyshev
JINR/DLNP, Dubna, Moscow region, Russia
Y.F. Bi, G. Chen, K.Z. Ding, Y. Song
ASIPP, Hefei, People's Republic of China
G.A. Karamysheva, N.A. Morozov, E.V. Samsonov, G. Shirkov, S.G. Shirkov
JINR, Dubna, Moscow Region, Russia

The SC200 superconducting cyclotron for hadron therapy is under development by collaboration of ASIPP (Hefei, China) and JINR (Dubna, Russia). The accelerator will provide 200 MeV proton beam with maximum current of 1μA in 2017-2018. The cyclotron is very compact and light, the estimate total weight is about 30 tons and extraction radius is 60 cm. We have performed simulations of all systems of the SC200 cyclotron and specified the main parameters of the accelerator. Average magnetic field of the cyclotron is up to 3.5 T and the particle revolution frequency is about 45 MHz, these parameters increases the requirements for accuracy of the beam dynamics studies. We have designed and performed beam tracking starting from the ion source. Codes and methods used for the beam tracking are presented.

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reference for this paper to ※ BibTeX, ※ LaTeX, ※ Text/Word, ※ RIS, ※ EndNote (xml)