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Investigations on W-Band Second Harmonic Gyrotron for 50/100-kW Operation
IEEE Transactions on Plasma Science ( IF 1.5 ) Pub Date : 2020-12-01 , DOI: 10.1109/tps.2020.3033316
Surbhi Adya , S. Yuvaraj , Santanu Karmakar , M. V. Kartikeyan , M. K. Thumm

In this article, RF behavior studies on a $W$ -band continuous wave (CW) gyrotron for industrial, scientific, and medical applications are presented. Two different designs are carried out for the output power level of 50 and 100 kW. The mode competition with the first and second harmonic neighboring modes is carefully investigated, and TE6,2 and TE10,4 are chosen as the operating modes for these designs. The cold cavity design and self-consistent computations for power and efficiency are done to determine the geometrical and beam parameters of the desired modes using the in-house code, Gyrotron Design Suite Second Harmonic Version 2018 (GDS2H-V. 2018). The desired output power is obtained for two different designs at the chosen cavity modes. Additionally, electron guns along with magnetic guidance systems are designed to generate an electron beam with the required beam parameters for the two designs.

中文翻译:

用于 50/100-kW 操作的 W 波段二次谐波回旋管的研究

在本文中,介绍了用于工业、科学和医疗应用的 $W$ 波段连续波 (CW) 陀螺仪的射频行为研究。针对 50 和 100 kW 的输出功率水平进行了两种不同的设计。仔细研究了与一次和二次谐波相邻模式的模式竞争,并选择 TE6,2 和 TE10,4 作为这些设计的工作模式。使用内部代码 Gyrotron Design Suite Second Harmonic Version 2018 (GDS2H-V. 2018) 完成冷腔设计和功率和效率的自洽计算,以确定所需模式的几何和光束参数。在选定的腔模式下,两种不同的设计都可以获得所需的输出功率。此外,
更新日期:2020-12-01
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