频率可调亚太赫兹回旋管的平面布拉格反射器

Q3 Physics and Astronomy Instruments Pub Date : 2023-09-15 DOI:10.3390/instruments7030027

Nikita A. Bylinskiy, Yuriy K. Kalynov, Valentina E. Kotomina, Nikolay Yu. Peskov, Mikhail D. Proyavin, Andrei V. Savilov, Dmitry D. Sobolev, Alexander A. Vikharev, Vladislav Yu. Zaslavsky

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引用次数: 0

摘要

最近提出了一种基于不规则低频谐振器和外反射器组合的频率调谐亚太赫兹回旋管的新概念。对基-回旋-谐波回旋管进行了仿真，证明了在宽(~10%)频率范围内实现高(10-30%)效率的可能性。讨论了一种以所谓的改进平面布拉格结构的形式解决窄带频率可调外反射器问题的可能方法。本文描述了基于一种基于光聚合物3D打印的新型添加剂技术制造这种结构，以及制造样品的“冷”实验结果。

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Planar Bragg Reflectors for Frequency-Tunable Sub-Terahertz Gyrotrons

A novel concept of a frequency-tuned sub-terahertz gyrotron based on a combination of an irregular low-frequency resonator and an external reflector has been proposed recently. A simulation was carried out for a fundamental-cyclotron-harmonic gyrotron that demonstrates the possibility of achieving high (10–30%) efficiencies in a wide (~10%) frequency range. A possible solution to the problem of narrow-band frequency-tunable external reflectors in the form of so-called modified planar Bragg structures is discussed. The manufacturing of such structures on the basis of a novel additive technology based on photopolymer 3D printing, as well as the results of “cold” experiments of the manufactured samples, are described in the paper.

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