基于间隙波导的毫米波行波管慢波结构研究

2021 14th UK-Europe-China Workshop on Millimetre-Waves and Terahertz Technologies (UCMMT) Pub Date : 2021-09-13 DOI:10.1109/ucmmt53364.2021.9569878

Amira Zied Abozied, R. Letizia

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引用次数: 2

摘要

隙波导技术的应用有助于毫米波行波管宽带慢波结构的设计。非接触式金属壁可以减轻70 GHz以上频率下的组装挑战，并有可能降低欧姆损耗。这种技术增加了设计灵活性，可以在电源耦合部分将不同的功能集成到一个单片设计中。提出了一种基于w带隙波导的行波管工作在88 ~ 100ghz频率范围内的SWS。给出了完整SWS的初步结果。

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Investigation of gap waveguide-based slow wave structure for millimeter wave travelling wave tubes

The design of wideband slow wave structures (SWS) for millimeter wave travelling wave tubes can be aided by the implementation of gap waveguide technology. Contactless metal walls can alleviate assembly challenges at frequencies above 70 GHz and potentially reduce ohmic losses. The increased design flexibility typical of this technology can lead to the integration of different functionalities into a monolithic design at the power coupling section. A W-band gap waveguide-based SWS is proposed for wideband travelling wave tube operation at the frequency range 88–100 GHz. Preliminary results of the complete SWS are presented.

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2021 14th UK-Europe-China Workshop on Millimetre-Waves and Terahertz Technologies (UCMMT)

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