A 10 mA, steady-state, charge exchange negative ion beam source

I. Shikhovtsev, V. Amirov, K. Anikeeva, V. Davydenko, I. Emelev, A. Ivanov, V. Mishagin, V. Rashchenko, I. Maslakov, E. Shubin
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Abstract

A negative ion source, which utilizes a conversion of primary high current proton beam into negative ions in a gas target via charge-exchange collisions, is under development in Budker Institute, Novosibirsk. The proposed beam will be used for injection into a tandem accelerator, which is a part of the neutron source dedicated for boron-neutron capture therapy (BNCT). The ion source is designed to produce a beam that contains ≥50% of molecular ions. The initial ion beam current is about 1 A at 30 keV energy. After molecular ion dissociation in a gas target, which produces protons with an energy of 15 keV, and further charge-exchange collisions, the beam after the target will contain about 2% of negative ion species with a current in excess of 10 mA. The negative ion beam is then separated by the magnetic field, accelerated up to an energy of 105 keV and enters the tandem accelerator. This paper presents the results of simulations of the beam formation, acceleration and transport. The arrangement of the ion source and corresponding high voltage power supply are also discussed.
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一个10毫安,稳态,电荷交换负离子束源
一种负离子源,利用一次高电流质子束通过电荷交换碰撞在气体靶中转化为负离子,正在新西伯利亚的Budker研究所开发中。提议的光束将用于注入串联加速器,该加速器是专用于硼中子捕获治疗(BNCT)的中子源的一部分。离子源设计用于产生含有≥50%分子离子的光束。在30 keV能量下,初始离子束电流约为1 A。气体靶中的分子离子解离产生能量为15 keV的质子,再经过电荷交换碰撞,靶后的束流将含有约2%的负离子,电流超过10 mA。然后,负离子束被磁场分离,加速到105千伏特的能量,进入串联加速器。本文给出了光束形成、加速和输运的模拟结果。讨论了离子源的布置和相应的高压电源。
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