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A Novel Design of <i>G</i>-Band Broadband Low-Gain Fluctuation Slow-Wave Structure With Improved Folded Waveguides

Yuan Feng, Pan Pan, Changqing Zhang, Hanwen Tian, Jinjun Feng

2023IEEE Transactions on Electron Devices11 citationsDOI

Abstract

The design method for ultrawideband amplification with low-gain fluctuation is explored for the terahertz folded-waveguide traveling-wave tube (TWT). Although the folded-waveguide circuit has a large cold bandwidth (~30%), effective amplification with a flat gain characteristic can only be achieved in a limited range due to sharply reduced interaction impedance. The situation further deteriorates in the design of a terahertz TWT where an oversized beam tunnel has to be used to facilitate the transport of the beam. Through careful analysis of the folded-waveguide (FWG) design characteristics, a modification to the geometry of the circuit has been proposed, leading to a significant enhancement in design capability. As a result, the interaction impedance is increased by 26% over a wide operation frequency band in comparison to the normal folded-waveguide circuit. This makes it possible to use the phase velocity tapering technology to increase efficiency and balance the gain at the same time. A design example in G-band is presented. The interaction circuit is capable of producing 18-W output power over 30 GHz from 202 to 232 GHz with a gain fluctuation of less than 1.5 dB.

Topics & Concepts

TaperingTerahertz radiationTraveling-wave tubeBroadbandElectrical impedanceBandwidth (computing)OpticsWaveguidePhysicsMaterials scienceEngineeringElectrical engineeringTelecommunicationsComputer scienceAmplifierComputer graphics (images)Gyrotron and Vacuum Electronics ResearchMicrowave Engineering and WaveguidesTerahertz technology and applications
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