Nonstationary oscillations of gyrotron backward wave oscillators

Shih-Hung Chen, Liu Chen
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Abstract

Summary form only given. The nonstationary oscillation of the gyrotron backward wave oscillator (gyro-BWO) was studied by the steady-state analysis and the time-dependent simulation. The steady-state analysis gives the equilibrium states of the gyro-BWO, which stabilities can be examined by the time-dependent simulation. Comparisons of the numerical results show that the gyro-BWO becomes nonstationary while the trailing field structure completely forms due to the dephasing energetic electrons. The radiated wave in the trailing field structure is backward propagating to interfere with the main internal feedback loop of the gyro-BWO. Therefore, the frequency discrepancy between the radiated wave from the trailing field structure and the oscillation in the contracted field structure causes the alternative appearance of the field contraction and expansion, which forms the nonstationary oscillation of the gyro-BWO. The frequency separation from the central resonant frequency of the gyro-BWO and sidebands is scaled with the field amplitude of the contracted field structure, which shows that the nonstationary oscillation of the gyro-BWO is essentially different from the self-modulation of the gyromonotron.
回旋管反向波振荡器的非平稳振荡
只提供摘要形式。通过稳态分析和时变仿真,研究了回旋加速器后向波振荡器的非平稳振荡。稳态分析给出了陀螺- bwo的平衡状态,其稳定性可以通过时变仿真来检验。数值计算结果的对比表明,由于高能电子的失相,陀螺- bwo在完全形成拖尾场结构时变得非平稳。尾场结构中的辐射波反向传播,干扰陀螺- bwo的主内反馈回路。因此,尾场结构的辐射波与收缩场结构的振荡之间的频率差异导致了场的收缩和膨胀交替出现,从而形成了陀螺- bwo的非平稳振荡。陀螺- bwo的中心谐振频率与边带的频率间隔随收缩场结构的场幅值成比例,表明陀螺- bwo的非平稳振荡与陀螺单管的自调制有本质区别。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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