A Low-Voltage Gyrotron Backward-Wave Oscillator at 200 GHz

2018 Progress in Electromagnetics Research Symposium (PIERS-Toyama) Pub Date : 2018-08-01 DOI:10.23919/PIERS.2018.8598035

C. Hung, Y. Yeh, Tsun-Hsu Chang

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Abstract

The gyrotrons are primarily developed for radars, plasma heating in controlled fusion reactors, and material processing, so they are usually operated at high voltages (about 100 kV) to generate high power coherent radiation in the millimeter to terahertz band. Recently, some high frequency applications require a relatively low-power gyrotron. In this paper, we analyze the stability and performance of a 200 GHz gyrotron backward-wave oscillator (gyro- BWO) operating at a beam voltage of 10 kV and a beam current of 0.5 A. The beam-wave interaction in a cylindrical waveguide is simulated by a single-mode, self-consistent nonlinear code. All the possible oscillating modes, including the operating mode and the competing modes, are considered. Simulation results show that the low-voltage gyro-BWO operating in the TE42 and the fundamental cyclotron harmonic is stable in the magnetic range of 73.5−77.0 kG. Under this stable operating condition, the low-voltage gyro-BWO was predicted to generate a peak power of 466 W with 9.3% efficiency and a frequency tuning bandwidth of 2.5 GHz using a uniform interaction waveguide. If the interaction waveguide is tapered to enhance the efficiency, the low- voltage gyro-BWO was predicted to generate a peak power of 1.25 kW with 25% efficiency and a frequency tuning bandwidth of 0.93 GHz.

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200ghz低压回旋管反向波振荡器

回旋管主要用于雷达、受控聚变反应堆中的等离子加热和材料处理，因此它们通常在高压(约100千伏)下运行，以产生毫米波到太赫兹波段的高功率相干辐射。最近，一些高频应用需要一个相对低功率的回旋管。本文分析了在10 kV波束电压和0.5 a波束电流下工作的200 GHz回旋加速器反向波振荡器(gyro- BWO)的稳定性和性能。用单模自洽非线性程序模拟了圆柱波导中的波束相互作用。考虑了所有可能的振荡模式，包括工作模式和竞争模式。仿真结果表明，在73.5 ~ 77.0 kG的磁场范围内，工作在TE42和基波回旋谐波中的低压陀螺- bwo是稳定的。在此稳定工作条件下，使用均匀相互作用波导的低压陀螺- bwo预计将产生466 W的峰值功率，效率为9.3%，频率调谐带宽为2.5 GHz。如果将相互作用波导变细以提高效率，则预计低压陀螺- bwo将产生1.25 kW的峰值功率，效率为25%，频率调谐带宽为0.93 GHz。

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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2018 Progress in Electromagnetics Research Symposium (PIERS-Toyama)

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