Chinese Physics C > 2009, Vol. 33 > Issue(8): 682-686 DOI: 10.1088/1674-1137/33/8/016

Central region design for a 10 MeV internal ion source cyclotron

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Abstract：

Internal ion sources are widely adopted in commercial cyclotrons used for short-life isotopes production. Without beam manipulation provided by the external beam injection line, the central region of this type of cyclotron is more sensitive and should be carefully designed. A design study and beam dynamics simulation for the central region of a 10 MeV compact cyclotron is presented. The OPERA3D/TOSCA code was used to calculate the electric field from a parameterized three dimensional (3D) central region model. With iterative structure optimizations of the central region, the beam centering and vertical focusing is well controlled, and the RF phase acceptance is around 25°. A c++ code for beam simulation in the central region was developed and tested.

References

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QIN Bin, LIU Kai-Feng, FENG Yi-Zhang and FAN Ming-Wu. Central region design for a 10 MeV internal ion source cyclotron[J]. Chinese Physics C, 2009, 33(8): 682-686. doi: 10.1088/1674-1137/33/8/016

QIN Bin, LIU Kai-Feng, FENG Yi-Zhang and FAN Ming-Wu. Central region design for a 10 MeV internal ion source cyclotron[J]. Chinese Physics C, 2009, 33(8): 682-686. doi:10.1088/1674-1137/33/8/016 shu

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Received: 2008-08-20
Revised: 2009-02-23

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沈阳化工大学材料科学与工程学院沈阳 110142

Central region design for a 10 MeV internal ion source cyclotron

Corresponding author:QIN Bin,

Received Date:2008-08-20
Accepted Date:2009-02-23
Available Online:2009-08-05

Abstract:

Internal ion sources are widely adopted in commercial cyclotrons used for short-life isotopes production. Without beam manipulation provided by the external beam injection line, the central region of this type of cyclotron is more sensitive and should be carefully designed. A design study and beam dynamics simulation for the central region of a 10 MeV compact cyclotron is presented. The OPERA3D/TOSCA code was used to calculate the electric field from a parameterized three dimensional (3D) central region model. With iterative structure optimizations of the central region, the beam centering and vertical focusing is well controlled, and the RF phase acceptance is around 25°. A c++ code for beam simulation in the central region was developed and tested.