期刊
IEEE TRANSACTIONS ON ELECTRON DEVICES
卷 70, 期 2, 页码 830-834出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TED.2022.3228220
关键词
Folded double-grooved waveguide (FDGW); high-order mode traveling wave tube (TWT); sheet electron beam; traveling wave tube (TWT)
In this article, a folded waveguide with two coupling grooves is proposed for high-power and high-frequency traveling wave tubes (TWTs). The structure allows a modified TE $_{\text{20}}$ high-order mode to interact with two sheet electron beams. The transmission characteristics of this novel structure were simulated and measured. A good $\textit{S}_{\text{21}}$ of $-$10 dB and $\textit{S}_{\text{11}}$ of less than $-$15 dB were achieved in the 218-230-GHz range. Moreover, simulations of the beam-wave interaction in this structure predicted an output power of 930 W at 220 GHz, with a small signal gain of 58 dB and a 3-dB bandwidth of 1.3 GHz.
In this article, a folded waveguide with two coupling grooves is proposed for high-power and high-frequency traveling wave tubes (TWTs). The structure allows a modified TE $_{\text{20}}$ high-order mode interact with two sheet electron beams. The transmission characteristics of this novel structure were simulated and measured. A good $\textit{S}_{\text{21}}$ of $-$ 10 dB and $\textit{S}_{\text{11}}$ of less than $-$ 15 dB were achieved in the 218-230-GHz range. Moreover, simulations of the beam-wave interaction in this structure predicted an output power of 930 W at 220 GHz, with a small signal gain of 58 dB and a 3-dB bandwidth of 1.3 GHz.
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