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Experiments on the beam breakup instability in long-pulse electron beam transport through RF cavity systems

机译：长脉冲电子束通过射频腔系统传输时电子束破裂不稳定性的实验

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Experiments have been performed to investigate the beam breakup-up (BBU) instability in high current electron beams transported through RF cavity systems. Experiments utilized long-pulse electron beam accelerators operating with the following parameters: energy = 0.3-0.8 MeV, current=0.1-1 kA, and pulselength=0.3-1.5 mu s. The transport system consists of 10 RF cavities separated by tubes which are cut off to the RF. Each cavity has a microwave probe to detect growth of e-beam emission in the TM/sub 110/ mode at 2.5-GHz, corresponding to the BBU. Solenoidal magnetic fields of 0.8-5kG are applied. Experiments show that 40% of the injected current was transported through the cavity system. The growth of the 2.5-GHz RF was found to be 4.4 dB per cavity, which compares well with the theoretical growth of 3.9 dB per cavity.

机译：已经进行了实验，以研究通过RF腔系统传输的大电流电子束中的电子束破裂（BBU）不稳定性。实验使用了具有以下参数的长脉冲电子束加速器：能量= 0.3-0.8 MeV，电流= 0.1-1 kA，脉冲长度= 0.3-1.5μs。传输系统由10个RF腔组成，这些腔由与RF相连的管分隔开。每个腔体都有一个微波探针，用于检测TM / sub 110 /模式在2.5 GHz时对应于BBU的电子束发射的增长。施加0.8-5kG的电磁磁场。实验表明，注入的电流的40％通过腔系统传输。发现2.5 GHz RF的每个腔的增长为4.4 dB，与理论上每个腔3.9 dB的增长相称。

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《》|1991年|P.1827-1829|共3页
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Gilgenbach; R.M.; Menge; P.R.;
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中图分类无线电电子学、电信技术;
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1. Transport of long-pulse, high-current electron beams in preformed monoatomic plasma channels in the ion focus regime [J] . Miller J.D., Gilgenbach R.M. IEEE Transactions on Plasma Science . 1990,第3期

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3. Peculiarities of the Azimuthal Transport of High-Current Electron Beams in a Curvilinear Cavity with a Transverse Magnetic Field [J] . Dubinov A. E., Tarakanov V. P. Technical physics letters: Letters to the Russian journal of applied physics . 2019,第10期

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4. Experiments on the beam breakup instability in long-pulse electron beam transport through RF cavity systems [C] . Gilgenbach R.M., Menge P.R., Institute of Electric and Electronic Engineer IEEE Particle Accelerator Conference . 1991

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5. Transport of long-pulse relativistic electron beams in preformed plasma channels in the ion focus regime. [D] . Miller, Joel David. 1989

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Experiments on the beam breakup instability in long-pulse electron beam transport through RF cavity systems

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