分离作用RFQ加速系统研究进展

介绍了SFRFQ加速系统的最新研究进展. 为验证SFRFQ结构的抗打火性能, 设计了一个高功率模型腔, 进行了高功率打火实验, 并最终证明了该结构的可行性. 为验证SFRFQ加速器的载束性能, 设计了一台长度仅为1m的600keV O⁺ SFRFQ加速器, 它将把从1MeV ISR RFQ引出的O⁺离子加速到1.6MeV. 为解决1MeV ISR RFQ引出束流与SFRFQ加速器的横向匹配问题, 在其间插入了一个三单元磁四极透镜. SFRFQ加速器加工和1MeV ISR RFQ改造的进展顺利.     

Beam dynamics and RF design of trapezoidal IH-RFQ with low energy spread

Beam dynamics and RF design have been performed of a new type trapezoidal IH-RFQ operating at 104 MHz for acceleration of ¹⁴C⁺ in the framework of RFQ based ¹⁴C AMS facility at Peking University. Low energy spread RFQ beam dynamics design was approached by the method of internal discrete bunching. ¹⁴C⁺ will be accelerated from 40 keV to 500 keV with the length of about 1.1 m. The designed transmission efficiency is better than 95% and the energy spread is as low as 0.6%. Combining the beam dynamics design, a trapezoidal IH-RFQ structure was proposed, which can be cooled more easily and has better mechanical performance than traditional RFQ. Electromagnetic field distribution was simulated by using CST Microwave Studio (MWS). The specific shunt impedance and the quality factor were optimized primarily.     

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     

四轩型RFQ加速腔高频特性的数值模拟与实验研究

为设计一个高负载因子、高流强的RFQ加速器，使用三维电磁场计算程序MAFIA对加速腔的高频特性进行了模拟计算. 本文主要研究RFQ支撑板高度、宽度、间距、电极形状等结构参数对高频腔体高频特性的影响，根据RFQ加速器的比分路阻抗以及电磁场分布的要求，对RFQ的结构参数进行优化设计，然后根据模拟计算结果加工冷模，进行冷模测量并将测量结果与计算结果加以比较.     

强流RFQ加速器的匹配设计方法研究

模拟计算和束流实验证明不匹配是直线加速器中强流束产生束晕的直接原因. 束晕的产生将导致束流品质下降和束流丢失, 也使得不匹配成为引起束流丢失的主要原因. 为了提高强流RFQ加速器中束流的传输品质和提高传输效率, 在分析了RFQ加速器中束流不匹配的原因之后, 提出了基于常规四部曲方法的匹配动力学设计方法. 该设计方法可以有效地抑制发射度增长和提高束流的传输效率.     

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     

国际未来直线对撞机(ILC)阻尼环Lattice设计

为了使国际未来直线对撞机达到高的亮度, 对撞机的阻尼环必须要有很小的自然发射度. 同时, 阻尼环要有很大的接收度来接受来自正电子注入系统的大能散、大发射度的正电子束团. 对于磁聚焦结构的设计来说, 同时达到以上要求是一件很有挑战性的工作. 为了降低ILC阻尼环的造价采用修正的FODO结构设计了可以满足ILC要求的阻尼环备用Lattice, 并使四极磁铁的数量比起ILC阻尼环BCD设计减少了一半.     

微型电子回旋共振离子源的全局模型

微型电子回旋共振(electron cyclotron resonance, ECR)离子源在紧凑型离子注入机、小型中子管、微型离子推进器等领域有着十分广泛的应用.为了深入认识微型ECR离子源的工作机理,本文以北京大学自主研制的一款微型氘离子源作为研究对象,以氢气和氘气放电形成的等离子体为例,发展了一种基于粒子平衡方程的全局模型.研究结果表明,该离子源束流成分与离子源的运行气压和微波功率有着很强的依赖关系.对于氢气放电等离子体,微波功率低于100 W时,离子源可以分别在低气压和高气压情况下获得离子比超过50%的H~+₂离子束和H~+₃离子束;当微波功率高于100 W时,可以在很宽的运行气压范围内,获得质子比超过50%的束流.因此,提高微波功率是提高微型离子源质子比的关键.对于氘气放电等离子体, 3种离子比例对运行气压和微波功率的依赖关系与氢气放电等离子体的规律基本一致.但是在相同的运行条件下, D~+比例比H~+比例高10%—25%.也就是说,在微型氘离子源的测试和优化过程中,可以利用氢气代替氘气进行实验,并将质子比测量结果作为相同条件下氘离...     

Theoretical Design of a 104MHz Ladder Type IH-RFQ Accelerator

Beam dynamics and rf designs of a 104 MHz ladder type IH-RFQ （L-IH-RFQ） accelerator are finished at Peking University for the acceleration of 14C＋ from 40 keV to 500 keV. As a specific feature, the output beam energy spread is as low as 0.6% achieved with the internal discrete bunching method, which makes potential applications of RFQ feasible, such as accelerator mass spectrometry and ion implantation. Tolerances of the beam dynamics design are studied by means of changing the input beam parameters, and the results are quite satisfying. On the other hand, the L-IH-RFQ structure is employed, taking advantage of its mechanical stability and the absence of inter-electrode voltage asymmetry. Radio-frequency properties are studied and optimized for reducing power loss with Microwave Studio （MWS）. Tuning of the field flatness and frequency is investigated in principle.     

International Linear Collider damping ring lattice design with two wiggler sections

The International Linear Collider (ILC), which is based on super-conducting RF acceleration technology, requires the damping rings to provide beams with extremely small equilibrium emittance, and large acceptance to ensure good injection efficiency for high-emittance, and high-energy spread beam from the positron source. In order to reduce the cost for ILC damping rings, an alternative lattice which is different from the baseline configuration design has been designed with modified FODO arc cells, and the total quadrupole number has been reduced by half. At the same time, to decrease the total cost involved in constructing access shafts needed to supply power, cryogenics etc. for the wigglers and other systems, the number of wiggler sections is decreased from 8 to 4, and further to 2. This new lattice has been optimized to have a good dynamic aperture. This alternative ILC damping ring lattice design will reduce the cost largely as compared with the baseline design.