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室温CH腔体的单元腔近似优化
引用本文:李智慧,Ratzinger U. 室温CH腔体的单元腔近似优化[J]. 强激光与粒子束, 2007, 19(8): 1357-1360
作者姓名:李智慧  Ratzinger U
作者单位:西南科技大学,理学院,四川,绵阳,621010;IAP University Frankfurt/Main,Frankfurt 60325,Germany
基金项目:西南科技大学博士研究基金;国家自然科学基金
摘    要: CH(cross-bar H-type structure)结构是近几年提出的一种适用于低β的新型DTL(drift tube linac)加速结构,同IH(interdigital H-type structure)结构相比,CH结构可以工作在更高的频率(150~700 MHz)下,从而可以得到更高的输出能量(150 MeV)。由于DTL腔体为准周期结构,通过对单元腔的MWS(microwave studio)模拟及优化,得到了工作频率为350 MHz,单核能从6 MeV到66 MeV时的腔体并联阻抗及其它腔体参数,并对腔体单元数对腔体特性参数及谐振频率的影响做了定性分析。分析表明:对于CH结构,其有效并联阻抗远大于传统的DTL结构,对于350 MHz的工作频率,在6 MeV时将近100 MΩ/m,即使在能量高达66 MeV时,其有效并联阻抗也大于40 MΩ/m;单元腔近似是一种非常有效的分析DTL加速结构的方法,单元腔计算结果和整腔计算结果相比,谐振频率的相对偏差小于1%; 对于有效并联阻抗的计算,误差也在10%之内。

关 键 词:CH结构  有效并联阻抗  MWS数值模拟  单元腔近似  加速器
文章编号:1001-4322(2007)08-1357-04
收稿时间:2006-12-12
修稿时间:2006-12-12

Optimization of room temperature CH-cavity with cell-cavity approximation
LI Zhi-hui,Ratzinger U. Optimization of room temperature CH-cavity with cell-cavity approximation[J]. High Power Laser and Particle Beams, 2007, 19(8): 1357-1360
Authors:LI Zhi-hui  Ratzinger U
Affiliation:1. Science School, Southwest University of Science and Technology, Mianyang 621010, China;2. IAP, University Frankfurt/Main, Frankfurt, Germany
Abstract:Compared with the IH structure (110-mode), the CH structure (210-mode) can operate at higher frequencies (150~700 MHz) and can accelerate ions to higher energies (up to 150 MeV). Detailed microwave studio(MWS) simulations were performed for this structure. Since a multi-gap cavity can be approximated as a quasi-periodic structure, it is possible to analyze one bl/2-cell at an energy corresponding to the cavity centre. A reduced copper conductivity of 85% was adopted in effective shunt impedance calculations. Geometry variations with respect to RF frequency and shunt impedance can be performed rapidly by that method in the first stage of optimization. Using the transit time factor calculated by the beam dynamics simulation code LORASR, effective shunt impedances from 100 MΩ/m down to 45 M?
Keywords:CH structure  Effective shunt impedance  MWS numerical simulation  Cell cavity approximation  Accelerator
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