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A 100 MeV H- compact cyclotron is under construction at China Institute of Atomic Energy (CYCIAE-100). The proton beams of 75 MeV-100 MeV at an intensity of 200 μA will be extracted in dual opposite directions by charge exchange stripping devices. The crossing point at the switching magnet center is fixed inside the magnet yoke and the stripping points for various extraction energies are calculated by the code CYCTRS. With the code GOBLIN, we can calculate the transfer matrix including the dispersion effects from the stripping point to the switch magnet. The beam distribution just after stripping foil can be obtained from the multi-particle tracking code COMA and the extracted beam parameters after the switch magnet such as emittance, envelope, dispersion, energy spread, bunch length, etc. are given by the extraction orbit simulations. 相似文献
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在回旋加速器中,高频系统为带电粒子加速提供能量,高频谐振腔作为高频系统中的关键部件,它性能的好坏直接决定着粒子是否能够被加速,所以,高频谐振腔的设计非常关键.在100MeV负氢回旋加速器的设计中,在空间限制的同时,要求加速电压从中心区的60kV到出引区的120kV变化,这对谐振腔的设计提出了很高的要求.基于上述条件,本工作利用有限差分法的软件CST MICR0wAVESTUDIO设计的双内杆结构的44MHz高频谐振腔初步设计完成,根据初步设计的结论,加工与实际腔体尺寸1:1模型,模型高频参数测量的结果与CST MICROWAVE STuDIO的计算相吻合,结果是可信的. 相似文献
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为了试验研究强流回旋加速器的整机设计技术,主磁铁、束流诊断等关键部件的设计与加工工艺技术,以完成lOOMeV回旋的设计验证,并为今后逐步提高流强创造试验条件,自2004年以来,陆续研究、设计、加工了一些关键部件,先后实验研究达到了单项技术指标;目前,已集成为一套强流回旋加速器的综合试验装置.本文报告该试验装置的设计与设备制造情况、磁场测量与垫补结果、10-15mA负氢离子源、高频腔和注入系统实验研究、内靶束流调试等工作. 相似文献
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Physics design of CYCAIE-100 总被引:2,自引:0,他引:2
The design and construction of Beijing Radioactive Ion-beam Facility (BRIF) was started at China Institute of Atomic Energy -CIAE) in 2004. In this project, a 100 MeV high intensity cyclotron, CYCIAE-100, is selected as a driving accelerator for radioactive ion beam production. It will provide a proton beam of 75—100 MeV with an intensity of 200—500 μA. The scheme adopted in this design, i.e., 相似文献
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The design and construction of Beijing Radioactive Ion-beam Facility (BRIF) was started at China Institute of Atomic Energy -CIAE) in 2004. In this project, a 100 MeV high intensity cyclotron, CYCIAE100, is selected as a driving accelerator for radioactive ion beam production. It will provide a proton beam of 75—100 MeV with an intensity of 200—500 μA. The scheme adopted in this design, i.e., stripping the accelerated H-, makes the structure more compact and construction cost much lower. At present, the design for each system has been accomplished. This paper depicts the basic physics design of the machine, including its major structure and parameters, beam dynamics and each relevant system, e.g. basic structure of the main magnet, numerical simulation of the RF resonant cavity, axial injection system, central region, and study on crucial physics problems concerning the extraction and beam lines. The major problems encountered during the design of CYCIAE-100 are also summarized in this paper. 相似文献
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强流回旋加速器综合试验装置的设计与建造 总被引:1,自引:0,他引:1
为了试验研究强流回旋加速器的整机设计技术, 主磁铁、束流诊断等关键部件的设计与加工工艺技术, 以完成100MeV回旋的设计验证, 并为今后逐步提高流强创造试验条件, 自2004年以来, 陆续研究、设计、加工了一些关键部件, 先后实验研究达到了单项技术指标; 目前, 已集成为一套强流回旋加速器的综合试验装置. 本文报告该试验装置的设计与设备制造情况、磁场测量与垫补结果、10—15mA负氢离子源、高频腔和注入系统实验研究、内靶束流调试等工作. 相似文献
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针对中国原子能科学研究院正在设计的IOOMeV强流质子回旋加速器,研究并提出高频腔公差.高频腔的误差包括加工安装的误差和重力引起的D板变形.加工安装误差的存在干扰束团的径向和轴向运动,用理论分析和数值模拟相结合的方法给出加工安装的公差;D板的重力变形引起加速间隙的轴向错位从而使束团产生轴向的相干振荡,计算结果表明目前结构的D板变形在允许范围内 相似文献
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