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回旋加速器非线性强流空间电荷效应仿真研究

Nonlinear Space Charge Effect Study for High Intensity Beam in Cyclotrons

【作者】 冯义章

【导师】 樊明武;

【作者基本信息】 华中科技大学 , 电工理论与新技术, 2008, 硕士

【摘要】 回旋加速器不仅广泛应用于国防基础科学研究,而且在同位素生产以及医学诊断、质子治疗等应用领域也得到广泛的应用。引入虚拟样机技术,用虚拟方法进行低能加速器的设计、制造、安装、调试和运行仿真,有助于降低制造成本和工程风险。在粒子加速器中,束流自身的非线性空间电荷场将直接导致束流发射度的增长。粒子的能量较低时,空间电荷力更加显著,使得这一效应更加明显。空间电荷主导的束流行为的一个普遍特征是,一个初始非线性截面束在传输过程中将变得更加均匀,这个过程同时伴随着束流发射度的大幅度增长和束晕的出现。因此,对其束流动力学的模拟仿真是必要的,非线性束流仿真系统将作为虚拟样机集成平台的一个重要组成部分。本文详细地讨论了带空间电荷效应的非线性束流仿真系统的研究情况及其实现方法。首先基于边界元理论,推导出自由空间电荷场的计算公式,然后对相关模块进行了理论分析与详细设计,最后搭建集成仿真平台,主要包括相空间粒子分布的产生、分布测试、模型前处理、模拟计算和后处理五个部分。为验证程序设计的正确性,本文根据层流流体理论和高斯理论推导出特殊情况下的束流运动方程,并求解出初始截面为K-V分布和高斯分布两种情况下的近似解析解,将其结果与该仿真系统的模拟结果进行比对,结果相当吻合。最后给出一条注入线的模拟计算结果,并与ORBIT、TRACE 3-D的计算结果进行比对,结果表明:该程序所采用数值方法的计算结果与ORBIT、TRACE 3-D的计算结果有较好的一致性。该程序可用于直线加速器及回旋加速器中的空间电荷效应模拟。

【Abstract】 Cyclotrons are not only widely used in fundamental researches in national defense, but also widely employed in isotopes production, medical diagnosis and proton therapy. By employing VP technology, we applied virtual method in design, production, installation, and simulation of low energy cyclotrons, which conduces to reducing cost and risks.The nonlinear space-charge field of a beam is a serious concern for beam emittance growth in particle accelerators. This effect is most pronounced when particles are slow and space-charge forces are significant. The general property of space-charge dominated beam behavior is that a beam with an initial nonlinear profile tends to become more uniform and this process is associated with strong emittance growth and the appearance of beam halo, therefore, describing the behavior of the beam with space charge effect is necessary, non-linear beam simulation system will be as an important component of the VP platform.This paper discusses the research and implementation of the non-linear beam simulation system with space charge effect. First of all, based on the Boundary Element. Method (BEM) theory, we obtain the computational expressions of space charge field in free space. Then, the analysis and design modules are introduced in details. Finally, the simulation platform is developed including five parts, namely, Beam distribution generator in phase space, pre-processing, distribution testing, simulation and post-processing.For validating the accuracy of the design, according to laminar flow, we obtained the formula of beam dynamics from specific cases and computed the approximate solution with initially K-V beam and Gaussian beam. The calculation shows good agreement between theory and numeric results. Finally, the simulation result of an injection beam line is presented. The computation results are compared with ORBIT and TRACE 3-D, which shows good agreement. This code can be used to study beam dynamics in linacs and high intensity cyclotrons.

【关键词】 空间电荷效应BEM束流仿真注入线
【Key words】 space charge effectBEMbeamsimulationinjection
  • 【分类号】TL542
  • 【下载频次】84
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