The Study of Millimeter-Band Multiple-Beam O-Type Vacuum Electron Devices

The Study of Millimeter-Band Multiple-Beam O-Type Vacuum Electron Devices

Miniature O-type vacuum electron devices (VEDs), such as traveling-wave tube (TWT), are very promising as compact sources of high-power coherent electromagnetic radiation of millimeter band. With the increase in operating frequencies, dimensions of the devices decrease proportionally. Therefore, to...

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Bibliographic Details
Published in:2022 IEEE 8th All-Russian Microwave Conference (RMC) pp. 86 - 89
Main Authors: Torgashov, Roman A., Kolesnichenko, Evgenia E., Rostuntsova, Alena A., Rozhnev, Andrey G., Starodubov, Andrey V., Ryskin, Nikita M.
Format: Conference Proceeding
Language:English
Published: IEEE 23-11-2022
Subjects:
Couplings
Electron beams
Harmonic analysis
Impedance
metamaterial
multiple sheet electron beam
Predictive models
Reflection
Shape
slow-wave structure
traveling-wave tube
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Summary:Miniature O-type vacuum electron devices (VEDs), such as traveling-wave tube (TWT), are very promising as compact sources of high-power coherent electromagnetic radiation of millimeter band. With the increase in operating frequencies, dimensions of the devices decrease proportionally. Therefore, to achieve adequate values of output power and gain, it is necessary to use spatially developed slow-wave structures (SWSs) and high-aspect-ratio sheet electron beams. In this paper, interdigital, ladder-type, and metamaterial-inspired SWSs for millimeter-band TWTs with multiple sheet electron beams are designed and their high-frequency parameters are simulated. All the structures are designed for adopting of a 10-15 kV double sheet electron beam.
DOI:10.1109/RMC55984.2022.10079286