分离作用RFQ膜片电极的优化设计

用RELAX3D模拟分离作用射频四极场(SFRFQ)加速结构中傍轴下的电场分布，并分析了膜片孔径、加速间隙等参数对粒子能量增益的影响，找到了设计SFRFQ电极的一般方法，使得在极间电压为70kV的情况下(以O⁺为例)，粒子通过一个周期单元，可获得100keV以上的能量增益，小球微扰法的测量值与模拟结果能很好的符合. 关键词： 分离作用射频四极场 RELAX3D 能量增益 反场     

重离子整体分离环型RFQ加速器的研究

简单介绍了北京大学在高频四极场（ＲＦＱ）加速器方面的研究情况和取得的成果，包括束流动力学研究、ＲＦＱ腔的高频特性及工艺加工可行性等。现已研制成功一台２６ＭＨｚ整体分离环型ＲＦＱ加速器，其极间电压达８２ｋＶ，把Ｎ＾＋离子从２０ｋｅＶ加速到３００ｋｅＶ，证实了这种加速器的优点和可行性。     

整体分离环RFQ加速器的研究

阐述了北京大学整体分离环高频四极场（ＩＳＲＲＦＱ）加速器研究所取得的研究成果．分别论述了２６ＭＨｚ３００ｋｅＶＩＳＲＲＦＱ加速器结构、束流动力学设计、高频控制系统、束流试验装置及束流试验；分析了其对Ｎ＋、Ｏ＋、Ｏ－束流试验的研究结果；简述了２６ＭＨｚ１ＭｅＶＲＦＱ加速器束流动力学、加速腔设计及目前的进展 The status of the ISR RFQ accelerators in Peking University is described. The structure of ISR RFQ accelerator, beam dynamics calculation results by PARMTEQ, RF systems, beam transport lines and the beam test evolutions of a 26 MHz 300 keV ISR RFQ accelerator are also presented, respectively. The beam test results for N +, O +, O - particles are analyzed in detail. At last, the development of 1 MeV 26 MHz ISR RFQ accelerator is introduced briefly.     

分离作用射频四极场加速器的结构和工艺设计

 介绍了北京大学分离作用射频四极场(RFQ)加速器的结构特点,包括膜片式电极、支撑环式电极支撑系统、水冷系统、调谐系统及其工艺实现;介绍了基于该分离作用RFQ加速腔进行的调谐测试、高功率实验和束流实验。结果表明:调谐系统的频率调节范围及品质因数完全满足实验要求;分离作用RFQ加速腔的输入功率可以达到33 kW以上,满足高功率下稳定运行的条件;在束流实验中,把1.03 MeV的O⁺入射束流加速到1.65 MeV,半高宽能散小于3%。加速器结构满足物理设计要求,加速系统运行稳定。     

分离作用射频四极场加速器的结构和工艺设计

介绍了北京大学分离作用射频四极场(RFQ)加速器的结构特点,包括膜片式电极、支撑环式电极支撑系统、水冷系统、调谐系统及其工艺实现;介绍了基于该分离作用RFQ加速腔进行的调谐测试、高功率实验和束流实验。结果表明:调谐系统的频率调节范围及品质因数完全满足实验要求;分离作用RFQ加速腔的输入功率可以达到33 kW以上,满足高功率下稳定运行的条件;在束流实验中,把1.03 MeV的O+入射束流加速到1.65 MeV,半高宽能散小于3%。加速器结构满足物理设计要求,加速系统运行稳定。     

北京大学1MeV RFQ加速器性能优化研究

在入口归一化均方根发射度为0.05mm.mrad时, 北京大学1MeV 射频四极场加速器ISR-1000束流传输效率为97%. 当更换新的ECR源时发射度增加到0.2mm.mrad, 此时束流传输效率下降为89%. 在不改变腔体结构的前提下, 对入口参数及极间电压进行了优化调整, 将效率提高到98%. 还进行了ISR-1000对入射束流参数的敏感性分析, 给出了各参数允许的变化范围.     

350MHz强流质子RFQ加速器工艺腔的研制与测量

为研究强流质子RFQ加速腔的设计与加工工艺,研制了一台全尺寸无氧铜工艺腔.本文介绍了其物理设计与机械设计、机械加工与钎焊工艺研究及其高频性能的测量和调节.经调节,RFQ工艺腔可以达到较为理想的电场分布,其4个象限电场分布的一致性和平整度均能满足要求,二极场分量也足够小     

分离作用射频四极场加速器中动力学参数与极限流强的探讨

系统分析了粒子在分离作用射频四极场(RFQ)加速结构中的运动,导出了极限流强与动力学参数的关系. 存在于分离作用RFQ膜片加速间隙处的加速电场，较传统的RFQ能更加有效地加速带电粒子.四杆电极之间的射频四极场，对粒子的横向具有聚焦或者散焦作用，通过适当选取粒子动力学参数可以保证粒子在分离作用RFQ中横向和纵向运动的稳定性. 关键词： 分离作用射频四极场加速器 稳定性 反场 极限流强     

分离作用射频四极场加速器频率调谐和高功率试验

在分离作用射频四极场（SFRFQ）加速腔中加入频率调谐装置,用步进电机驱动调谐杆运动,改变调谐板在腔中的位置来改变调谐板与支撑环之间的分布电容,从而改变SFRFQ腔的工作频率,使其谐振频率为26.07 MHz,实现了RFQ和SFRFQ组合加速系统频率的匹配。在完成两腔频率调谐的基础上进行了SFRFQ腔体1/6占空比高功率试验,轫致辐射谱的测量表明,SFRFQ极间电压在入射峰值功率为28.8 kW时已达到86.2 kV,超过了设计指标的70.0 kV。     

分离作用射频四极场加速器频率调谐和高功率试验

在分离作用射频四极场(SFRFQ)加速腔中加入频率调谐装置,用步进电机驱动调谐杆运动,改变调谐板在腔中的位置来改变调谐板与支撑环之间的分布电容,从而改变SFRFQ腔的工作频率,使其谐振频率为26.07 MHz,实现了RFQ和SFRFQ组合加速系统频率的匹配。在完成两腔频率调谐的基础上进行了SFRFQ腔体1/6占空比高功率试验,轫致辐射谱的测量表明,SFRFQ极间电压在入射峰值功率为28.8 kW时已达到86.2 kV,超过了设计指标的70.0 kV。     

Studies on RFQ accelerators and its applications

Development activities of Radio Frequency Quadrupole （RFQ） accelerators in China are presented. A 1 MeV O＋ RFQ and a 3.5 MeV ADS proton RFQ have been constructed. A novel separated function RFQ is under beam test, a 2 MeV D＋ RFQ is under construction and a CSNS RFQ is going to be constructed. The RFQ dynamics and the simultaneous dual beam acceleration with positive and negative ions were investigated and related codes were developed. The applications of RFQ will be further promoted in China.     

Studies on RFQ accelerators and its applications

Development activities of Radio Frequency Quadrupole (RFQ) accelerators in China are presented.A 1 MeV O~+ RFQ and a 3.5 MeV ADS proton RFQ have been constructed.A novel separated function RFQ is under beam test, a 2 MeV D~+ RFQ is under construction and a CSNS RFQ is going to be constructed.The RFQ dynamics and the simultaneous dual beam acceleration with positive and negative ions were investigated and related codes were developed.The applications of RFQ will be further promoted in China.     

Power test of the separated function RFQ accelerator

The progress of the Separated Function RFQ (SFRFQ) accelerator, which can raise the field gradient of acceleration while maintaining the transverse focusing power sufficient for high current beam, is presented. In order to demonstrate the feasibilities of the novel accelerator, a prototype cavity was designed and constructed. Correspondingly, a code SFRFQCODEV1.0 was developed specially for cavity design and beam dynamics simulation. The prototype cavity will be verified as a post-accelerator for ISR RFQ-1000 (Integral Split Ring RFQ) and accelerate O+ from 1 MeV to 1.6 MeV. To inject a higher current oxygen beam for the prototype cavity, the beam current of ISR RFQ-1000 was upgraded to 2 mA. The status of high power and beam test preparation for the prototype cavity are presented in this paper.     

Power test of the separated function RFQ accelerator

The progress of the Separated Function RFQ (SFRFQ) accelerator, which can raise the field gradient of acceleration while maintaining the transverse focusing power sufficient for high current beam, is presented. In order to demonstrate the feasibilities of the novel accelerator, a prototype cavity was designed and constructed. Correspondingly, a code SFRFQCODEV1.0 was developed specially for cavity design and beam dynamics simulation. The prototype cavity will be verified as a post-accelerator for ISR RFQ-1000 (Integral Split Ring RFQ) and     

RFQ加速器中二极模稳定杆作用机理的研究

RFQ加速器中的二极模场给束流施加一个偏转力,导致束流损失在机器上.因此,必须采取降低二极模场的措施.人们提出采用二极模稳定杆使二极模频率远离四极工作模.在一台RFQ冷模上开展的实验研究中,发现了一些与二极模稳定杆作用机理相关的新现象,本文报告这些实验结果,并对其进行分析解释.根据这些结果,提出,利用非对称性地插入二极模稳定杆,可以降低非对称RFQ腔体中的二极模场分量.     

SSC直线注入器RFQ腔体多物理场分析

SSC-LINAC是为兰州重离子研究装置（HIRFL）设计的直线注入器,它将U34+离子加速到1 MeV/u注入到分离扇回旋加速器（SSC）中,为冷却储存环（CSR）提供10 MeV/u的U34+。该注入器可以将SSC引出的重离子流强提高一个量级以上。SSC-LINAC由一个RFQ（Radio Frequency Quadrupole）加速器和4个DTL（drift tube linac）组成,设计频率为53.667 MHz。RFQ工作在连续波模式,设计功率30 kW,如果不能有效地冷却,高频电流在电极表面产生的热量会使RFQ的腔壁和电极发生形变,从而导致腔体频率的漂移以及加速和聚焦电场的改变。因此,为了保证连续波工作的RFQ加速器稳定运行,对水冷模式和通道设计提出了很高的要求。作者用有限元软件ANSYS对RFQ进行高频电磁场、温度场、结构应力的耦合分析,验证了冷却方案设计的可行性和可靠性。Heavy Ion Research Facility at Lanzhou(HIRFL) consists of SFC, SSC, CSRm and CSRe. A new linac injector, which will increase U34+ to 1 MeV/u, is designed for SSC to increase the beam intensity to ten times higher. The new injector, whose frequency is 53.667 MHz, is composed by a RFQ (Radio Frequency Quadrupole) cavity and four DTL(Drift Tube Linac) cavities. The RFQ cavity, whose RF power is 30 kW, is operated at CW(continuous wave) mode. The heat produced by HF (high frequency) electromagnetic will cause deformation of RFQ structure, lead to the resonant frequency shift, and reduce the focusing efficiency of the cavity. An efficient cooling system is necessary to ensure that the RFQ cavity can stably be operated at the nominal frequency. A detailed multi-physics field coupling analysis of RFQ has been finished with 3D finite elements software ANSYS. The result of the analysis shows that the water cooling system can cool the RFQ cavity fully and keep the frequency drift be in a acceptable level.     

Study on shunt impedance and voltage distribution of 4-rod RFQ cavity

A high current RFQ (radio frequency quadrupole) is being studied at the Institute of Modern Physics,CAS for the direct plasma injection scheme. Shunt impedance is an important parameter when designing a 4-rod RFQ cavity,it reflects the RF efficiency of the cavity,and has a direct influence on the cost of the structure.Voltage distribution of a RFQ cavity has an effect on beam transmission,and particles would be lost if the actual voltage distribution is not as what it should be.The influence of cell length,stem thickness and height on shunt impedance and voltage distribution have been studied,in particular the effect of projecting electrodes has been investigated in detail.