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1.
Physics design of CYCAIE-100   总被引:2,自引:0,他引:2       下载免费PDF全文
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
2.
加速器引出束流分布一般都是高斯分布, 而在束流应用中需要更多的是均匀分布的束流. 目前国内研究已经实现了束流的均匀分布, 但事实上这些束流的均匀度不够理想. 因此, 重点介绍了能够使束流实现高均匀分布的旋转扫描磁铁的研制过程, 在理论推敲和实践检测的基础上充分证实: 通过旋转扫描磁铁的作用, 束流可以在目标靶上完全实现高均匀分布. 这项技术在国内实属首创, 其性能已经达到国际同类磁铁的先进水平.  相似文献
3.
为了深入研究强流负氢束在强流质子回旋加速器CYCIAE-100轴向注入线中的传输, 利用split-operator方法分解外场和束流自身的空间电荷场的作用. 对外 场利用单粒子跟踪技术, 采用一阶线性近似; 对空间电荷场采用PIC方法, 利用 快速傅里叶变换求解Poisson方程. 用FORTRAN95语言开发了一个基于面向对象技术的二维宏粒子传输计算程序CYCPIC2D, 本程序可以计算任意分布的强流束在输运线上的传输.最后给出了对CYCIAE-100注入线的模拟计算结果, 并和程序ORBIT, TRACE 3-D的结果进行比对验证, 结果表明: 空间电荷效应在此注入线上有较大的影响, 而且3个程序计算的不同中性化的结果基本上一致; 束流强度达到几十毫安时, 基于PIC方法的两个程序CYCPIC2D和ORBIT的计算结果完全吻合, 而线性近似程序TRACE 3-D有明显差异.  相似文献
4.
强流回旋加速器综合试验装置的磁场测量与垫补   总被引:1,自引:0,他引:1       下载免费PDF全文
强流回旋加速器综合试验装置的主体是一台紧凑型回旋加速器, 加速器主磁铁材料的不均匀性, 磁铁加工和安装的非理想因素将引起中心平面的磁场的非理想分布, 因此有必要对其中心平面的磁场进行测量和垫补. 本文主要讲述该综合试验装置的霍尔感应磁场测量系统的设计和使用;通过磁场测量数据分析进行镶条的再加工, 最终实现对等时性磁场和束流的纵向聚焦的垫补;研究与实践了一种对磁场一次谐波进行垫补的方法, 垫补的结果满足了设计的要求.  相似文献
5.
70MHz连续波质子束脉冲化装置   总被引:1,自引:0,他引:1       下载免费PDF全文
为了进行强流回旋加速器关键技术研究, 中国原子能科学研究院建立了一个强流回旋加速器综合试验装置. 中国原子能研究院将在这个回旋加速器综合试验装置上建立强流脉冲化实验装置, 目标是实现几十至百keV量级的强流束的脉冲化. 具体是将70MHz连续波负氢束脉冲化为重复频率1—8MHz, 脉冲宽度约为10ns的脉冲质子束. 脉冲化装置将主要包括束流切割器和聚束器两大系统. 聚束器采用频率为70.487MHz的双间隙单漂移栅网结构, 可以将直流束压缩到±30°的回旋加速器高频接受相宽之内. 束流切割器将采用频率为2.2MHz的正弦波, 切割后的脉冲宽度将小于8ns, 最后得到的脉冲束的重复频率为4.4MHz.  相似文献
6.
100MeV强流质子回旋加速器设计的引出质子束流强为大于200μA, 并计划提供脉冲束流. 轴向注入系统设计有两条注入线, 即1#和2#注入线. 1#注入线利用负氢束的中性化以解决强流连续束流的注入,为保证达到高中性化程度, 横向聚焦均采用磁元件; 2#注入线的设计目的主要是提供一定流强的脉冲化束流,由于脉冲化负氢束的中性化过程难以建立, 因此, 横向聚焦元件均为静电元件. 两条线合理的结构设计使得注入系统可方便切换运行模式. 采用包含空间电荷力的光学计算程序, 匹配不同中性化程度的注入束流光学特性, 匹配工作的重点在于高达40°的高频相位接收度. 从离子源出口到粒子加速前15圈的连续匹配计算结果表明: 所设计的注入系统可有效地控制束流包络, 减少束流损失; 中心区高的高频接收度使设计的100MeV质子回旋加速器具有加速强流负氢束的能力.  相似文献
7.
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
8.
The accelerators should be properly designed to make the radiation field produced by beam loss satisfy the dose limits. The radiation field for high intensity H cyclotron includes prompt radiation and residual radiation field. The induced radioactivity in accelerator components is the dominant source of occupational radiation exposure if the accelerator is well shielded. The source of radiation is the beam loss when cyclotron is operating. In this paper, the radiation field for CYCIAE-100 is calculated using Monte Carlo method and the radioactive contamination near stripping foil is studied. A method to reduce the dose equivalent rate of maintenance staff is also given.  相似文献
9.
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
10.
The accelerators should be properly designed to make the radiation field produced by beam loss satisfy the dose limits. The radiation field for high intensity H- cyclotron includes prompt radiation and residual radiation field. The induced radioactivity in accelerator components is the dominant source of occupational radiation exposure if the accelerator is well shielded. The source of radiation is the beam loss when cyclotron is operating. In this paper, the radiation field for CYCIAE-100 is calculated using Monte Carlo method and the radioactive contamination near stripping foil is studied. A method to reduce the dose equivalent rate of maintenance staff is also given.  相似文献
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