超导腔束管耦合器耦合度研究

 利用超导腔束管耦合器具有轴对称结构的特点,使用SUPERFISH程序对其耦合度进行了数值分析,给出了束管耦合器内导体位置与耦合度的关系曲线,并根据等效电路的分析结果,结合CAEP超导腔光阴极注入器的实验参数,给出了束管耦合器的设计参数。     

一种可调耦合度型高功率输入耦合器的设计

旨在设计一支新型、耦合度可调、连续波型高功率输入耦合器,外部品质因数的调节范围为1.5×105~2×106,以适应先进光源技术研发与测试平台超导电子直线加速器束流试验装置不同束流模式下的需要。这是国内首次开展耦合度可调式连续波型高功率输入耦合器的研制。采用HFSS三维电磁仿真软件完成了耦合器的高频结构设计,对耦合器的微波传输、场分布进行了计算;同时采用CST微波工作室对不同内导体天线插入深度下耦合器的外部品质因数进行了仿真计算,结合650 MHz 2单元超导腔进行了耦合度调节实验,仿真计算与实验测试结果基本一致。     

用于X波段模块化相对论速调管放大器在线测量的紧凑型定向耦合器设计

为实现模块化相对论速调管放大器功率、频率和相位的在线测量,对紧凑型高定向性高带宽的定向耦合器进行了仿真和实验研究。利用小孔耦合理论和相位叠加原理进行理论分析,设计了一种双孔紧凑型定向耦合器,在此基础上采用主、副波导正交连接,耦合孔沿轴向和角向二维分布的方法,进一步缩短了耦合器的长度。通过电磁仿真对耦合器各参数进行优化,模拟结果表明：当中心频率为10 GHz时,普通双孔定向耦合器对TM01模式的耦合度为-60.68 dB,在250 MHz的带宽内定向性大于20 dB,此时耦合区长度为3.49 cm。改进型定向耦合器对TM01模式的耦合度为-58.1 dB,在300 MHz的带宽内定向性大于20 dB,此时耦合区长度仅为1.8 cm（约0.6λ）。耦合器的冷腔实验测量结果与仿真结果符合较好。     

用于微波电子枪的双重入腔及其阴极结构

介绍一台用于热阴极微波电子枪的双重入驻波腔及其阴极结构．根据微波枪束品质要求，首先定出腔体基本参数，然后报告了腔形、场分布、谐振频率、耦合度等的设计考虑，并给出腔体测量结果，最后介绍了阴极结构的设计．     

一种耦合度可调节的微波脉冲压缩装置设计及实验

针对有源能量倍增器法(SLED)脉冲压缩实验中对储存能量阶段和释放能量阶段耦合度调节的需求,利用支臂短路波导H-T的调配功能,设计了一种耦合度可调节的SLED脉冲压缩装置。基于散射矩阵理论,分析了支臂短路波导H-T对SLED脉冲压缩装置耦合度的调节能力。利用大功率波导环形器代替3 dB耦合器,进行了基于单储能腔的无源SLED脉冲压缩实验,实验结果表明,支臂短路波导H-T对耦合度的调节能力与理论分析相吻合。     

波导带状线同轴线型定向耦合器特性

给出了波导带状线同轴线型定向耦合器技术参量的计算表达式,利用Matlab软件定量地研究了耦合器结构尺寸和输入波频率对耦合器的技术参量的影响。数值结果表明:方向角对耦合度及方向性的影响最大;耦合小孔深度对理想方向角影响最大;输入频率在低频端(小于2.0GHz)对理想方向角的影响很大,而在中高频端的影响较小。在波导带状线同轴线型定向耦合器的设计中,除了可以改变小孔大小及旋转方向来满足耦合度和方向性外,还可以通过改变带状线尺寸以及耦合器位置来调节耦合度和方向性。     

162.5 MHz高功率耦合器测试腔体设计

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.     

Ka波段二次谐波回旋速调管放大器的输出特性

 根据谐波回旋速调管放大器的注-波互作用特点，对Ka波段二次谐波三腔回旋速调管放大器的输出腔进行了数值模拟和优化设计，获得了输出腔末端高频波绕射输出孔径和腔体绕射Q值的对应关系。通过PIC粒子模拟，分析了该放大器的频率响应特点等输出特性。结果表明，在35 GHz频率，磁场0.685 T，电子注电压70 kV，电流15 A，横纵速度比为1.45，输入功率1.6 kW时，放大器可以获得超过220 kW的峰值输出功率、约22%的效率和23 dB的增益，3 dB带宽可达到110 MHz。     

一种带状线定向耦合器场分布的求解

 通过两次利用Schwarz-Christoffel 变换函数，先把理想的带状线变换到实轴上，然后再变换成为平板电容器，得到与两次变换过程相对应的两个变换函数，从而根据复合函数的性质，求出波导-带状线-同轴线型定向耦合器中的场分布。再根据小孔耦合理论，导出了耦合度、方向性的计算公式。最后对耦合度的理论计算结果与实际测试数据进行了对比，两者仅相差1.04 dB，吻合得很好。     

70 GHz二次谐波倍频回旋速调管研究

 对70 GHz二次谐波倍频回旋速调管高频结构和电子与波互作用进行了研究。研究了TE02模腔体绕射品质因数及模式转化，解决了二次谐波倍频回旋速调管漂移段不能截止70 GHz的TE01模而引起的腔体间高频串扰的问题。分析了注电流、输入功率、电子横纵速度比和电子注引导中心半径等参数对输出功率、增益和效率的影响。针对二次谐波回旋速调管放大器工作频带窄、效率低，进行了高频结构优化设计，显著地展宽了工作频带，提高了互作用效率。在理论分析和高频计算的基础上，建立了注-波互作用PIC（粒子模拟）模型，进行了粒子模拟计算和优化，得到了70 GHz 的二次谐波倍频四腔回旋速调管放大器设计方案。粒子模拟结果表明：在工作电压70 kV，注电流13 A，电子注横向速度与纵向速度比为1.5时，中心频率69.81 GHz输出功率256 kW，带宽160 MHz，电子效率28%，饱和增益大于44 dB。     

RF power coupling for the CSNS DTL

The China Spallation Neutron Source(CSNS)drift tube linac(DTL)consists of four tanks and each tank is fed by a 2.5 MW klystron.Accurate predication of RF coupling between the RF cavity and ports is very important for DTL RF coupler design.An iris-type coupler is chosen to couple the RF power to the DTL accelerating cavity.The physical design of the DTL coupler and the calculations of RF coupling between the cavity and coupler are carried out.The results from the numerical simulations are in excellent agreement with the analytical results.     

RF power coupling for the CSNS DTL

The China Spallation Neutron Source (CSNS) drift tube linac (DTL) consists of four tanks and each tank is fed by a 2.5 MW klystron. Accurate predication of RF coupling between the RF cavity and ports is very important for DTL RF coupler design. An iris-type coupler is chosen to couple the RF power to the DTL accelerating cavity. The physical design of the DTL coupler and the calculations of RF coupling between the cavity and coupler are carried out. The results from the numerical simulations are in excellent agreement with the analytical results.     

Highly efficient and high output power of erbium doped fiber laser in a linear cavity configuration

A simple Erbium Doped Fiber Laser (EDFL) in linear cavity configuration is reported. The cavity design is based on an FBG as a back reflector, and a loop back optical circulator with an output coupler as the front reflector. Different coupling ratios of the coupler are tested and 50: 50 provides the highest coupling output power of 22.06 dBm (160.7 mW). The pump power conversion efficiency is about 95% when pumping with two pump lasers at 1460 and 1490 nm with combined pumping power of 545 mW. The laser output has a measured linewidth of 0.0179 nm.     

Development of fundamental power coupler for C-ADS superconducting elliptical cavities

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.     

Calculation of the external quality factor of the high power input coupler for the BEPC Ⅱ superconducting cavity

It is very important to predict the coupling between the cavity and the high power input source in the coupler design. In this paper, a time domain method is used to calculate the external quality factor Qext for the BEPC Ⅱ superconducting cavity. A comparison between simulation results and experimental results is presented. The results of simulation and measurement of Qext have a good agreement within an error of 10%.The geometry parameters related with Qext are also studied.     

同轴对称型主耦合器的研制

 为更进一步提高注入器的性能,注入器使用的耦合器采用同轴对称耦合。给出了同轴对称耦合器的理论计算、具体设计以及实验情况。经过对模型耦合器多次微波传输测量调试以及对各个部位反射的细致分析,最后获得了较好的结果,证明了该耦合器的实用性和可行性。     

Design and simulation of a C-band SLED with mode converter

The transient response analysis of the SLED based on the equivalent circuit is described. Then, a C-band SLED using TE0,1,15 mode cylindrical cavity with TE10-TE01 mode converter has been designed. According to the main RF parameters of the accelerator, the coupling coefficient is optimized to obtain the maximum multiplication factor. The key components of the pulse compressor include a 3 dB directional coupler, a TE10-TE01 mode converter,and a cylindrical cavity, which are simulated and optimized using 3D electromagnetic field simulation software. In addition, the function defining the relation between the coupling factor and aperture size is derived by a mathematical fitting method.     

三维射频加速腔程序包MAFIA的开发和应用

介绍了三维射频加速器计算机辅助设计(CAD)程序包MAFIA的特点、功能及其应用。用CAD的方法实现了射频加速器特别是非轴对称带耦合腔的加速器的三维腔形设计。同时介绍了节省内存、节约机时的模型方法,使得在中小型机器上运行大程序(八万条)成为可能。文章主要对L波段的加速腔进行了数值模拟,并和实验进行了比较,结果符合较好;通过三维数值模拟及图形模拟的方法比较了各种形状谐振腔的性能;计算分析了输入耦合腔及高阶模耦合器对加速腔电磁场分布等参量的影响;提出了加耦合器后谐振频率改变的补偿方法。     

142.8MHz次谐波聚束腔的结构优化设计

 使用二维有限差分法分析软件Superfish和三维有限积分法分析软件MAFIA，对142.8MHz次谐波聚束腔的结构进行了模拟和优化研究，给出了聚束腔结构优化设计的步骤和方法，确定了优化后聚束腔的基本结构。分析比较了Superfish和MAFIA两个软件的模拟优化结果，得出了基本一致的结论。还探讨了Superfish和MAFIA在聚束腔设计中的应用方法。