Phase Grouping of Larmor Electrons By a Synchronous Wave In Controlled Magnetrons

arXiv: Accelerator Physics Pub Date : 2018-06-01 DOI:10.18429/JACOW-IPAC2018-THPAL038
G. Kazakevich, R. Lebedev, V. Yakovlev
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Abstract

A simplified analytical model based on the charge drift approximation has been developed. It considers the resonant interaction of the synchronous wave with the flow of Larmor electrons in a magnetron. The model predicts stable coherent generation of the tube above and below the threshold of self-excitation. This occurs if the magnetron is driven by a sufficient resonant injected signal (up to -10 dB). The model substantiates precise stability, high efficiency and low noise at the range of the magnetron power control over 10 dB by variation of the magnetron current. The model and the verifying experiments with 2.45 GHz, 1 kW magnetrons are discussed.
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可控磁控管中同步波对拉莫尔电子相群的影响
建立了一个基于电荷漂移近似的简化解析模型。它考虑了磁控管中同步波与拉莫尔电子流的共振相互作用。该模型预测了在自激阈值以上和以下的管的稳定相干产生。如果磁控管由足够的谐振注入信号(高达-10 dB)驱动,则会发生这种情况。该模型通过磁控管电流的变化,在10 dB以上的磁控管功率控制范围内实现了精确的稳定性、高效率和低噪声。讨论了该模型和2.45 GHz、1 kW磁控管的验证实验。
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arXiv: Accelerator Physics
arXiv: Accelerator Physics
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