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The beam breakup instability in quadrupole and solenoidal electron‐beam transport systems

机译：四极和电磁束传输系统中的光束破碎不稳定性

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Dispersion relations are derived to determine the growth rate, dominant wavelength, and group velocity of disturbances caused by the beam breakup instability. Considerations include weak and strong focusing, x‐y coupling in solenoidal transport, the spacing of accelerator cavities, and periodically pulsed beams. Beam breakup growth is minimum when the cavity spacing equals an integral number of half‐betatron wavelengths for quadrupole focusing, and an integral number of betatron wavelengths for solenoidal focusing. Minimum growth is also found for periodic pulses separated by an integral number of half‐periods of the TM110 cavity mode. Expressions for beam breakup growth at the minima are obtained.

机译：衍生分散关系以确定由光束破碎不稳定性引起的扰动的生长速率，主导波长和群体速度。考虑因素包括弱和强的聚焦，在电磁输送中的X-Y耦合，加速器腔的间隔，以及周期性脉冲梁。当腔间距等于四极其聚焦的半标珠波长的积分数，以及用于电磁聚焦的近距离波长的积分数量，光束分离生长最小。还发现了通过TM110腔模式的半周期分开的周期性脉冲的最小增长。获得了最小值的光束分解增长的表达。

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R. A. Bosch; P. R. Menge; R. M. Gilgenbach;
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年度 1992
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1. Effects of a solenoidal focusing field on the electron-ion two-stream instability in high-intensity ion beams [J] . Davidson RC., Uhm HS. Physics Letters, A . 2001,第1a2期

机译：螺线管聚焦场对高强度离子束中电子离子两流不稳定性的影响
2. Streaming instabilities of intense charged particle beams propagating along a solenoidal magnetic field in a background plasma [J] . Startsev EA, Davidson RC, Dorf M Physics of plasmas . 2008,第6期

机译：在背景等离子体中沿螺线管磁场传播的强带电粒子束的流不稳定性
3. Low-Frequency Instabilities of Electron Beams in Weakly Irregular Transportation Channels [J] . Goikhman M. B., Gromov A. V., Kovalev N. F. Radiophysics and quantum electronics . 2017,第2期

机译：弱不规则运输通道中电子束的低频空转能力
4. Experiments on the beam breakup instability in long-pulse electron beam transport through RF cavity systems [C] . Gilgenbach, R.M., Menge, . 1991

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5. Quadrupole Strong Focusing for Transport of Space-Charge Dominated Electron Beams in Traveling-Wave Tubes [D] . Nichols, Kimberley E. L. 2014

机译：四极强聚焦在行波管中传输空间电荷主导的电子束
6. A Comparison between Electron Gamma Shower National Research Council/Easy Particle Propagation (EGSnrc/Epp) and Monte Carlo N-Particle Transport Code (MCNP) in Simulation of the INTRABEAM ® System with Spherical Applicators [O] . Tegaw E. M., Geraily Gh., Etesami S. M., 2021

机译：电子伽玛淋浴国家研究委员会/简易粒子传播（EGSNRC / EPP）和蒙特卡罗N粒子传输代码（MCNP）在具有球形涂布器的模拟中进行比较
7. Microwave growth from the beam breakup instability in long‐pulse electron beam experiments [O] . P. R. Menge, R. M. Gilgenbach, R. A. Bosch 1992

机译：微波增长从光束分解在长脉冲电子束实验中的不稳定性

The beam breakup instability in quadrupole and solenoidal electron‐beam transport systems

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