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离子源注入型IH加速器有望发展成为一种紧凑型低功耗离子加速器,为有效验证该加速结构的束流俘获效率,中国工程物理研究院流体物理研究所设计了一套将质子束从0.04 MeV加速到2.0 MeV的IH加速腔。目前已经完成了该腔的腔体加工,开展了高频参数冷测及腔体调谐研究。通过漂移管调谐和电感调谐,减小了腔体的频率误差和加速电压分布误差。模拟计算实测电场下腔体的束流俘获效率,由调谐前的16%提高到调谐后的34%。冷测调谐结果表明,该加速腔的各项参数达到设计值,具备进行功率测试和束流测试的条件。 相似文献
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针对深腔内深孔、微小孔或盲孔等, 由于受到腔体尺寸形状和腔体结构的限制,导致对腔体内表面的检测及腔体内孔径形位信息的检测有很大的难度, 设计了一种检测腔内小孔特征以及腔内状态的内窥镜光学探头。该探头为具有90°视向角、20 mm大景深、高分辨率的细径内窥镜,其放大倍率为-0.71×,最大畸变为0.5%,全视场MTF在166 lp/mm处接近0.1,孔径检测精度为0.01 mm,分辨率为0.005 mm,且光学系统外径小于5 mm,可用于对腔体直径范围15 mm~45 mm、孔径直径范围0.01 mm~4 mm的腔体零件内微小孔径形位信息的检测。 相似文献
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建立了S波段相对论速调管放大器双间隙输出腔开放腔的3维模型。采用时域有限差分法,通过监测激励电流源的响应计算了该双间隙输出腔的谐振频率、有载Q值、场分布以及特性阻抗,并分析了腔体结构尺寸对谐振频率、有载Q值和特性阻抗的影响。研究表明:腔体半径对开放腔的谐振频率影响很大,耦合孔尺寸对腔体谐振频率的影响较小;随着耦合孔张角增加,有载Q值逐渐减小;随着腔体半径增大、间隙的减小,腔体特性阻抗降低。研究结果可为S波段强流相对论速调管放大器双间隙输出腔的设计提供理论依据。 相似文献
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行波电子直线加速器运行时加速管腔体因铜损会产生不均匀的热变形和腔频率偏移。因无法获知腔频率的准确偏移值,设计加速管冷却系统的一种经验设计方法是控制管体温度离散度在3 ℃之内。提出并实现了一种以直接控制加速管腔体频率离散度为设计目标的方法。采用插值蒙皮曲面造型理论,依据温度场和热变形的有限元仿真结果,高精度重建出变形后的腔体3维实体模型。将其导入到电磁场分析软件微波工作室,解算出不均匀温度分布造成的热变形引起的各腔频率偏移,实现了热-结构-电磁场的耦合分析。以加速管腔体频率离散度最小为设计目标,获得冷却系统优化参数。相对于经验设计方法,可大大减小冷却水流量和水压差,节约运行成本。 相似文献
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通过对新B1聚束器的介绍 ,比较详细地分析了NB1腔体内部组件对谐振频率的影响 ,并以此为依据,阐述了NB1控制系统的设计应如何结合其物理特性 ,最终设计出了一套实时控制系统 .该系统包含RF发射机控制系统和拖动控制系统 ,均可手动和计算机对RF发射机和 5个步进电机实时控制. With the introduction of New Buncher 1 system, the article analyzes the influence that these inner components of the NB1 cavity upon it’s working frequency in detail, and according to the physical characteristics of the NB1 cavity, a set of real time control system will be carried out. The NB1 control system includes RF emitter control and moving system control, which both have local control and computer control on RF emitter and five stepping motors. 相似文献
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功率耦合器是粒子加速腔射频功率馈送的关键部件。耦合器在安装至加速腔之前,必须进行常温高功率测试和锻炼,以检验加工工艺和设计指标,提高其射频性能。详细介绍了中国科学院近代物理研究所ADS25 MeV加速器样机162.5 MHz耦合器测试平台的改进设计。针对原有接触式测试锻炼方式的不足,提出非接触式测试锻炼方案。对耦合器测试锻炼过程进行了物理抽象,采用理论模拟的方法分析测试腔体功率传输。基于分析结果设计了低损耗、宽通带、多用途的非接触式耦合器测试腔体。该腔体可实现20 kW测试功率下60 W左右的腔体损耗和15 MHz-3 dB带宽。Fundamental power couplers (FPC) are crucial components for feeding RF power to the accelerating cavities. Before being installed on the accelerating cavity, a coupler must be tested and conditioned at room temperature to check its fabrication quality, to verify its design specifications, and improve its RF performance. This paper thoroughly introduced the design of a test stand for the 162.5 MHz coupler of ADS 25 MeV demo facility at IMP, CAS. In order to overcome the shortcomings of the original contacting test method, a noncontacting test scheme was proposed. A physical model was built for the the coupler test and the test cavity power transmission was analyzed theoretically. Based on the analysis results, a low-loss, wide-passband and multipurpose non-contacting coupler test cavity was designed. With the new test cavity, a power loss of around 60W and a -3 dB bandwidth of 15 MHz at a test power of 20 kW was achieved. 相似文献
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《中国物理C(英文版)》2017,(6)
5-cell elliptical cavities have been selected for the main linac of the China Accelerator Driven subcritical System(C-ADS) in the medium energy section. According to the design, each cavity should be driven with radio frequency(RF) energy up to 150 kW by a fundamental power coupler(FPC). As the cavities work with high quality factor and high accelerating gradient, the coupler should keep the cavity from contamination in the assembly procedure. To fulfil the requirements, a single-window coaxial type coupler was designed with the capabilities of handling high RF power, class 10 clean room assembly, and heat load control. This paper presents the coupler design and gives details of RF design, heat load optimization and thermal analysis as well as multipacting simulations. In addition, a primary high power test has been performed and is described in this paper. 相似文献
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基于超导器的连续波运行的高流强质子/氘束被越来越多的大科学装置所采用。在流强低于10 mA情况下,用于加速低段粒子的超导腔的高阶模影响基本可以忽略,但是对于加速百mA强流的低超导腔,其高阶模损耗情况有待研究。近期北京大学设计并加工了一支=0.09、运行频率162.5 MHz的超导半波长谐振腔,用于研究非相对论低超导半波长谐振腔加速100 mA强流质子束时可能涉及到的关键物理问题。重点研究了这支半波长谐振腔内部高阶模损耗的问题,用时域和频域两种方法分别计算了腔的高阶模损失因子,同时计算了考虑加工误差下腔内发生高阶模共振激发的概率。 相似文献
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G. G. Gulbekyan V. A. Buzmakov V. B. Zarubin I. A. Ivanenko N. Yu. Kazarinov G. A. Karamysheva I. Franko 《Physics of Particles and Nuclei Letters》2013,10(4):365-373
The flat-top cavity of the radio-frequency accelerating system designed at the Flerov Laboratory of Nuclear Reactions, Joint Institute for Nuclear Research, for the DC-280 cyclotron is described. The cyclotron is intended for increasing the capabilities and efficiency of experiments on the synthesis of super-heavy elements and an investigation of their nuclear physical and chemical properties. The DC-280 isochronous heavy-ion cyclotron will produce accelerated beam of ions in the range from neon to uranium. The parameters, design, and results of the experimental and 3D computer modeling of the flat-top cavity of the RF accelerating system of the DC-280 cyclotron are reported. 相似文献
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This paper designed a 9—cell RF superconducting accelerating cavity for the TeV electron linear accelerator collider in next century.The ratio,Epk/Eacc,of the maximal surface electric field to the accelerating gradient has been reduced to 2.024 and the cell to cell coupling keeps high to 1.95%.Distribution of the HOM passbands is reasonable.There is no overlap between the bands,therefore no trapped modes.The CSE type structure guarantees the mechanical hardness.According to present state of the art technigue of Niobium surface processing,it is possible to reach 25—30MV/m for the accelerating gradient with beam load. 相似文献