ECR氧离子源及整体分离环RFQ加速器低能输运系统的研制

根据研制分离作用RFQ和升级改造1MeV ISR RFQ的需要,设计了一台ECR 0+离子源及低能输运(LEBT)系统.低能输运系统使用2个静电透镜聚焦柬流,在引出电压22kV时,EBT末端得到6mA以上总脉冲束流、束流归一化均方根发射度为0.127πmm.mrad.束腰可前后移动160mm.     

单粒子态ECR离子源

介绍了一台2.45GHz电子回旋共振(ECR)单电荷离子源的磁场场形,以及它和总束流的关系.并且比较了国际上现有的几台同类型离子源的磁场场形.由此得出了关于2.45GHzECR离子源磁场场形的一些结论.     

用于1MeV 分离作用RFQ加速器改造的ECR氧离子源及LEBT系统的研制

An ECR O~ ion source and LEBT system have been developed for the upgrade of 1MeV Integral Split Ring RFQ at Peking University.To satisfy the requirement of RFQ,a more than 10mA oxygen beam has been extracted at 22kV through a 5mm diameter aperture.Its normalized root-mean-square emmitance is less than 0.1π·mm·mrad,which is required by RFQ accelerator.The LEBT matching section is redesigned upon the bench test results.The preliminary results will be presented in this paper.     

高电荷态ECR2离子源

介绍了兰州重粒子加速器的ECR2离子源的结构特点,给出该离子源的调试结果,并对ECR2源在两种不同的工作参数下的输出特性进行了讨论。     

重离子整体分离环RFQ加速器的升级改造

介绍了北京大学重离子整体分离环RFQ(ISR RFQ)加速器的升级改造工作, 包括升级后RFQ加速系统的组成; 强流永磁2.45GHz O⁺ ECR离子源的台面测试结果; 真空系统的改造; 1MeV ISR     

高电荷态ECR离子源

介绍了目前ECR离子源的发展状况和国际上几台典型的ECR离子源.Electron cyclotron resonance (ECR) ion source is the most efficient facility for producing highly charged ions. So far more than 1 emA of O 6+ and 0.02 eμA of U 55+ have been delivered by ECR ion source. In this paper the latest development of ECR ion source is presented and several typical ECR ion sources in the world is introduced.     

衬底偏压对ECR等离子体鞘层和离子行为的影响

介绍了电子回旋共振微波放电等离子体中离子向衬底输运的蒙特卡罗模型,该模型考虑了精确依赖于离子能量的电荷交换和动量转移截面以及中性区与鞘层的衔接。     

ECR微波放电氩离子输运过程的研究

建立了电子回旋共振（ＥＣＲ）微波放电等离子体中离子输运过程的蒙特卡罗模型，考虑了离子与中性原子的电荷交换碰撞和弹性碰撞，以及精确依赖于离子能量的电荷交换和动量转移截面，模拟了源于氩气ＥＣＲ微波放电的氩离子向衬底输运的过程，得到与实验报道相符的模拟结果。     

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.     

重离子整体分离RFQ加速器的升级改造

介绍了北京大学重离子整体分离环RFQ(ISR RFQ)加速器的升级改造工作,包括升级后RFQ加速系统的组成;强流永磁2.45GHz O+ECR离子源的台面测试结果;真空系统的改造;1MeV ISR RFQ加速器的高频控制系统改造;以及强流束流加速实验的结果.     

超导ECR离子源DECRIS-SC2

A new compact version of the"liquid He-free"superconducting Electron Cyclotron Resonance Ion Source,to be used as an injector for the U-400M cyclotron,is presently under construction at the FLNR in collaboration with LHE(JINR).The axial magnetic field of the source is created by the superconducting magnet,and the NdFeB hexapole is used for the radial plasma confinement.The microwave frequency of 14GHz will be used for ECR plasma heating.The DECRIS-SC2 superconducting magnet is designed for the induction of a magnetic field on the axis of the source of up to 1.4T(extraction side)and 1.9T(injection side) at nominal current of 75A.Cooling of the coils is carried out by CM cryocooler with cooling power of 1W at the temperature 4.5K.The basic design features of the superconducting magnet and of the ion source are presented.The main parts of the source are in production.The first beam test of the source is expected in the beginning of 2007.     

ECR离子源束流发射度的实验研究

利用最新自行研制的电扫描发射度探测系统, 在ECR离子源上进行了一系列关于ECR离子源引出束流发射度的研究. 这套电扫描发射度探测系统安装在中国科学院近代物理研究所(兰州)的LECR3试验平台的束运线上. 试验中, 通过测量相关参数, 研究了磁场、微波、掺气效应及负偏压效应等对引出束流发射度的影响. 利用实验所得的结果与关于ECR等离子体和离子源束流发射度的半经验理论, 分析推导了离子源各可调参数与ECR等离子体的直接关系, 这为分析探索ECR离子源的工作机制提供了一定的参考依据.     

RIKEN超导ECR离子源磁体系统的设计

Superconducting magnet system for a 28GHz ECR ion source has been designed.The maximum axial magnetic fields are 4T at the rf injection side and 2T at the beam extraction side,respectively.The hexapole magnetic field is about 2T on the inner surface of the plasma chamber.The superconducting coils consist of six solenoids and six racetrack windings for a hexapole field.Two kinds of coil arrangements were investigated:one is an arrangement in which the hexpole coil is located in the bore of the solenoids,and another is the reverse of it.The coils use NbTi-Copper conductor and are bath-cooled in liquid helium.The six solenoids are excited with individual power supplies to search for the optimal axial field distribution.The current leads use high Tc material and the cryogenic system is operated in LHe re-condensation mode using small refrigerators.The thermal insulated supports of the cold mass have also been designed based on the calculated results of the magnetic force.The heat loads to 70K and LHe stages were estimated from the design of the supports,the current leads and so on.     

2.45GHz ECR 强流等离子体源核心部件设计与实验研究

电子回旋共振(Electron Cyclotron Resonance,ECR)等离子体源能产生高电荷态离子、高流强的单电荷态离子,提供稳定的束流和良好的重复性.核心部件的设计对ECR等离子体源是至关重要的,磁场对等离子体的生成和分布有直接影响,良好的磁场可以提高等离子体的性能和效率.采用有限元分析方法对ECR等离子体源磁场进行分析与设计,得到了满足设计需求与目标的磁场位形,通过高斯计对设计的永磁环轴向磁场精确测量,发现磁场仿真结果与实验结果吻合比较好,只是轴向磁场最大值及对应位置上有点偏差.通过集成实验,研究核心部件对离子源引出束流强度的影响,引出束流稳定且强度达到7 m A.     

为IBA C70回旋加速器设计研制的采用Cusp场型H-离子源与产生He束的ECR离子源的双束轴向注入系统

At the moment,a 70MeV cyclotron is under construction by the IBA company.This cyclotron will be able to accelerate H~- beam from a multicusp source and with a beam intensity in the range of 10mA at the source extraction.A He~(1 2 ) beam is also required.This beam will be produced by a PANTECHNIK ECR ion source(SUPERNANOGAN)with an extracted current of 1 to 2mA.In this paper the studies and design of the two sources with a common axial injection in the cyclotron are described.     

ATLAS用于CARIBU项目的ECR离子剥离器

A new radioactive beam facility for ATLAS,the Californium Rare Ion Breeder Upgrade (CARIBU), is under construction.The facility will use fission fragments from a 1 Ci ~(252)Cf source;thermalized and collected into a low-energy beam by a helium gas catcher.In order to reaccelerate these beams,the existing ATLAS ECR-I ion source is being redesigned to function as a charge breeder source.The design and features of this charge breeder configuration is discussed and the project status described.