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针对kW级微波驱动的锁相GW高功率微波,设计了一个高增益(大于50 dB)四腔相对论速调管放大器(RKA)。模拟表明,在此条件下高次模振荡严重影响器件的锁相实现。由此,将RKA结构与正反馈振荡电路结合起来,建立相应的等效电路来研究这种高次模激励的物理过程(即高次模的激励与中间腔之间耦合强度的相关性)。在高次模振荡的等效电路(即正反馈振荡电路)中,用衰减电阻代替结构中的微波吸收层来研究高次模振荡的抑制机理,衰减电阻通过对反馈过程的控制,提高了电路的自激振荡起振电流。在结构上按照衰减电阻要求设计了微波吸收层,将高次模振荡的起振电流提高到大于器件的工作电流,实现了高增益(约60 dB)条件下高次模激励的抑制。模拟获得了4 kW微波功率驱动的2.3 GW锁相高功率微波,增益接近60 dB。在LTD加速器平台的实验结果表明:注入微波由固态RF种子源提供(功率10 kW),输出功率达到1.8 GW,增益为52.6 dB,90 ns内输入和输出微波的相对相位差小于±10°,实验上实现了kW级注入微波对GW高功率微波的相位锁定。 相似文献
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在器件设计上,针对低功率驱动的高功率微波放大器或高增益放大器中的高次模激励和自激振荡问题,采取了降低电子束同器件前端结构耦合等措施,来保证器件在工作区间完全处于放大状态,通过PIC模拟,设计了低功率驱动的S波段高功率微波放大器(电子束:流强7.5 kA,电子能量750 kV),注入微波6.8 kW时,模拟微波输出功率1.7 GW,增益53.9 dB.在Sinus加速器平台上开展了相应的实验研究: 注入微波62 kW时,微波输出功率达到2.04 GW(电子束:流强8 kA,电子能量800 kV), 输出频率
关键词:
高功率微波
微波器件
高增益
模式控制 相似文献
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由于杂模在高增益相对论速调管放大器中很容易激发,而且严重影响工作模式的束波互作用,因此,杂模抑制在高增益相对论速调管放大器中非常重要.杂模的激发不仅影响高增益相对论速调管放大器的正常工作,而且导致脉冲缩短等,大大降低速调管的工作性能.本文结合粒子模拟深入研究了杂模产生的机理,建立了激发杂模振荡的腔间耦合模型及其相应的等效电路,由此给出了杂模激发的起振电流公式和抑制措施,并且在PIC模拟中进行相应的模拟验证和优化处理,最后,在千瓦级驱动源驱动下,实验上实现了对杂模的控制,得到微波功率0.98GW脉冲宽度100ns的实验输出. 相似文献
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应用分析回旋行波管绝对不稳定性的Briggs-Bers相碰判据与小信号色散方程,并结合介质加载波导的冷场分析,通过数值计算比较了不同介质加载条件下回旋行波管工作模式的起振电流与寄生模式的起振长度,通过改变加载介质的特性参数从而增加行波损耗可以显著提高工作模式起振电流,并抑制掉寄生模式的返波振荡.结合介质加载波导冷场分析与回旋行波管小信号色散方程,分析了介质加载条件下回旋行波管小信号增益,给出了不同介质加载条件下的回旋行波管的小信号增益带宽曲线.在对介质回旋行波管自激振荡与小信号增益的综合分析基础上,对Kα
关键词:
Kα波段介质加载回旋行波管
绝对不稳定性
自激振荡
小信号增益 相似文献
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应用分析回旋行波管绝对不稳定性的Briggs-Bers相碰判据与小信号色散方程,并结合介质加载波导的冷场分析,通过数值计算比较了不同介质加载条件下回旋行波管工作模式的起振电流与寄生模式的起振长度,通过改变加载介质的特性参数从而增加行波损耗可以显著提高工作模式起振电流,并抑制掉寄生模式的返波振荡.结合介质加载波导冷场分析与回旋行波管小信号色散方程,分析了介质加载条件下回旋行波管小信号增益,给出了不同介质加载条件下的回旋行波管的小信号增益带宽曲线.在对介质回旋行波管自激振荡与小信号增益的综合分析基础上,对Kα 相似文献
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Higher mode excitation is very serious in the relativistic klystron amplifier, especially for the high gain relativistic amplifier working at tens of kilo-amperes. The mechanism of higher mode excitation is explored in the PIC simulation and it is shown that insufficient separation of adjacent cavities is the main cause of higher mode excitation. So RF lossy material mounted on the drift tube wall is adopted to suppress higher mode excitation. A high gain S-band relativistic klystron amplifier is designed for the beam current of 13 kA and the voltage of 1 MV. PIC simulation shows that the output power is 3.2 GW when the input power is only 2.8 kW. 相似文献
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Middle cavities between the input and output cavity can be used to decrease the required input RF power for the relativistic klystron amplifier.Meanwhile higher modes,which affect the working mode,are also easy to excite in a device with more middle cavities.In order for the positive feedback process for higher modes to be excited,a special measure is taken to increase the threshold current for such modes.Higher modes' excitation will be avoided when the threshold current is significantly larger than the beam current.So a high-gain S-band relativistic klystron amplifier is designed for the beam of current 5 kA and beam voltage 600 kV.Particle in cell simulations show that the gain is 1.6×105 with the input RF power of 6.8 kW,and that the output RF power reaches 1.1 GW. 相似文献
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为了提高THz行波管的输出功率,通过并行多注和功率合成的方法,完成了并行多注D波段折叠波导行波管的理论分析与数值模拟。计算结果表明:单束行波管在0.135~0.157THz频率区间具有很好的色散平坦度,3dB带宽为13GHz,0.14THz处获得了20.88dB的最大增益;多束合成行波管在0.14THz处获得了20.8dB的合成增益,3dB带宽区间合成效率不低于92%。数值模拟表明该方法很好地实现了多路放大信号的合成输出。并行多注行波管具有输出功率大、单束电流小、聚焦磁场低等优点,能够在低发射电流密度条件下实现大功率THz辐射。 相似文献
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A flexible high power RF test stand has been designed and constructed at IHEP to test a variety of 500 MHz superconducting RF components for the upgrade project of the Beijing Electron Positron Collider (BEPCⅡ), such as the input coupler, the higher order modes (HOMs) absorber and so on. A high power input coupler has been conditioned and tested with the RF power up to 250 kW in continuous wave (CW), traveling wave (TW) mode and 150 kW CW in standing wave (SW) mode. A prototype of the HOMs absorber has been tested to absorb power of 4.4 kW. An introduction of the test stand design, construction and high power tests is presented in this paper. 相似文献
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Choi J.J. Armstrong C.M. Ganguly A.K. Barsanti M.L. 《IEEE transactions on plasma science. IEEE Nuclear and Plasma Sciences Society》1994,22(4):465-475
A two-stage slow wave cyclotron amplifier is investigated to demonstrate a high power, stable, and broad Ka-band radiation source, operating at a low beam power (~60 kV, ~5 amps) and a low magnetic field (~7 kG). A linear theory predicts that the second harmonic gyro-BWO is competing in the amplifier and can be stabilized by inserting a sever in the interaction circuit. A slow-time-scale non-linear code, with a sever included, predicts a saturated gain of 24-28 dB, an efficiency of 15-17%, and an instantaneous bandwidth of 15-20% at a beam axial velocity spread of 2%. A broadband RF coupler, a mode converter, and a RF vacuum window are designed by the use of a 3D electromagnetic, finite element code. Measured RF characteristics are in good agreement with predictions 相似文献