Radio frequency quadrupoles(RFQs),which are crucial components of proton injectors,significantly affect the performance of proton accelerator facilities.An RFQ with a high frequency of 714 MHz dedicated to compact pro...Radio frequency quadrupoles(RFQs),which are crucial components of proton injectors,significantly affect the performance of proton accelerator facilities.An RFQ with a high frequency of 714 MHz dedicated to compact proton injectors for medi-cal applications is designed in this study.The RFQ is designed to accelerate proton beams from 50 keV to 4 MeV within a short length of 2 m and can be matched closely with the downstream drift tube linac to capture more particles through a preliminary optimization.To develop an advanced RFQ,challenging techniques,including fabrication and tuning method,must be evaluated and verified using a prototype.An aluminium prototype is derived from the conceptual design of the RFQ and then redesigned to confirm the radio frequency performance,fabrication procedure,and feasibility of the tuning algorithm.Eventually,a new tuning algorithm based on the response matrix and least-squares method is developed,which yields favorable results based on the prototype,i.e.,the errors of the dipole and quadrupole components reduced to a low level after several tuning iterations.Benefiting from the conceptual design and techniques obtained from the prototype,the formal mechanical design of the 2-m RFQ is ready for the next manufacturing step.展开更多
射频四极场加速器(Radio Frequency Quadrupole,RFQ)广泛应用于质子加速器装置中,高频率、紧凑型RFQ的发展可以推动质子加速器装置的小型化,同时也面临调谐困难的问题。紧凑型RFQ的性能对腔体尺寸的敏感度高,基于理论物理特性的传统调...射频四极场加速器(Radio Frequency Quadrupole,RFQ)广泛应用于质子加速器装置中,高频率、紧凑型RFQ的发展可以推动质子加速器装置的小型化,同时也面临调谐困难的问题。紧凑型RFQ的性能对腔体尺寸的敏感度高,基于理论物理特性的传统调谐算法难以取得良好效果,而基于腔体实际物理特性的调谐算法则可以解决紧凑型RFQ的调谐难点。本文提出了一种基于响应矩阵和最小二乘法的调谐算法,该算法可以限定求解的范围,避免计算结果超出调谐器可调谐范围的问题;为二极场分量赋予权重,可以高效地降低二极场误差,解决二极场分量难以调谐的问题。根据新的调谐算法分别在模拟环境下的RFQ样机上完成了调谐实验,在搭建的测量平台获得的结果显示:初始状态下二、四极场误差分别为24.09%和1.57%,经过5次调谐后两者误差分别降为2.33%和1.39%,验证了调谐算法的有效性。该调谐算法具有普适性,也可以用于其他频率的RFQ,将来还可以促进质子加速器装置的小型化,推动医用质子装置的普及。展开更多
SSC-Linac RFQ(Separated Sector Cyclotron Linac Radio Frequency Quadrupolec)是中国科学院近代物理研究所和北京大学共同研制的国内首台高电荷态强流重离子连续波四杆型加速器,机械加工的高精度是RFQ能否顺利出束的关键步骤之一。...SSC-Linac RFQ(Separated Sector Cyclotron Linac Radio Frequency Quadrupolec)是中国科学院近代物理研究所和北京大学共同研制的国内首台高电荷态强流重离子连续波四杆型加速器,机械加工的高精度是RFQ能否顺利出束的关键步骤之一。为了检测其机械形位公差,采用了激光跟踪仪和关节测量臂合理组合应用的测量新方法,使两种高精度的测量仪器能扬长避短,克服了大尺度工件形位公差传统测量方法的不足,使其在测量过程中发挥其最优的使用性和操作性,有效地提高了工作效率,从而保证RFQ高精度的测量结果。展开更多
基金This work was supported by National Natural Science Foundation of China(No.12222513).
文摘Radio frequency quadrupoles(RFQs),which are crucial components of proton injectors,significantly affect the performance of proton accelerator facilities.An RFQ with a high frequency of 714 MHz dedicated to compact proton injectors for medi-cal applications is designed in this study.The RFQ is designed to accelerate proton beams from 50 keV to 4 MeV within a short length of 2 m and can be matched closely with the downstream drift tube linac to capture more particles through a preliminary optimization.To develop an advanced RFQ,challenging techniques,including fabrication and tuning method,must be evaluated and verified using a prototype.An aluminium prototype is derived from the conceptual design of the RFQ and then redesigned to confirm the radio frequency performance,fabrication procedure,and feasibility of the tuning algorithm.Eventually,a new tuning algorithm based on the response matrix and least-squares method is developed,which yields favorable results based on the prototype,i.e.,the errors of the dipole and quadrupole components reduced to a low level after several tuning iterations.Benefiting from the conceptual design and techniques obtained from the prototype,the formal mechanical design of the 2-m RFQ is ready for the next manufacturing step.
文摘射频四极场加速器(Radio Frequency Quadrupole,RFQ)广泛应用于质子加速器装置中,高频率、紧凑型RFQ的发展可以推动质子加速器装置的小型化,同时也面临调谐困难的问题。紧凑型RFQ的性能对腔体尺寸的敏感度高,基于理论物理特性的传统调谐算法难以取得良好效果,而基于腔体实际物理特性的调谐算法则可以解决紧凑型RFQ的调谐难点。本文提出了一种基于响应矩阵和最小二乘法的调谐算法,该算法可以限定求解的范围,避免计算结果超出调谐器可调谐范围的问题;为二极场分量赋予权重,可以高效地降低二极场误差,解决二极场分量难以调谐的问题。根据新的调谐算法分别在模拟环境下的RFQ样机上完成了调谐实验,在搭建的测量平台获得的结果显示:初始状态下二、四极场误差分别为24.09%和1.57%,经过5次调谐后两者误差分别降为2.33%和1.39%,验证了调谐算法的有效性。该调谐算法具有普适性,也可以用于其他频率的RFQ,将来还可以促进质子加速器装置的小型化,推动医用质子装置的普及。
文摘SSC-Linac RFQ(Separated Sector Cyclotron Linac Radio Frequency Quadrupolec)是中国科学院近代物理研究所和北京大学共同研制的国内首台高电荷态强流重离子连续波四杆型加速器,机械加工的高精度是RFQ能否顺利出束的关键步骤之一。为了检测其机械形位公差,采用了激光跟踪仪和关节测量臂合理组合应用的测量新方法,使两种高精度的测量仪器能扬长避短,克服了大尺度工件形位公差传统测量方法的不足,使其在测量过程中发挥其最优的使用性和操作性,有效地提高了工作效率,从而保证RFQ高精度的测量结果。