Electron-Optic System With a Converged Sheet Electron Beam for a 0.2-THz Traveling-Wave Tube

This article presents the results of a design study of an electron-optic system (EOS) for a sheet-beam {G} -band traveling-wave tube. An electron gun providing a 0.1-A, 20-kV sheet beam emitted by a 0.8 mm \times0.8 mm curved cylindrical cathode is designed. The beam dimensions at waist position...

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Bibliographic Details
Published in:IEEE transactions on electron devices 2021-02, Vol.68 (2), p.798-803
Main Authors: Navrotsky, Igor A., Burtsev, Anton A., Emelyanov, Valeriy V., Titov, Vladimir N., Ryskin, Nikita M.
Format: Article
Language:English
Subjects:
Cathodes
Compression ratio
Curved beams
Density
Earth Observing System
Electric fields
Electron beams
Electron guns
Electron optic system (EOS)
Electrons
Magnetic noise
Magnetic shielding
Magnetic tunneling
Particle in cell technique
sheet electron beam
subterahertz radiation
Traveling wave tubes
traveling-wave tube (TWT)
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Summary:This article presents the results of a design study of an electron-optic system (EOS) for a sheet-beam {G} -band traveling-wave tube. An electron gun providing a 0.1-A, 20-kV sheet beam emitted by a 0.8 mm \times0.8 mm curved cylindrical cathode is designed. The beam dimensions at waist position are 0.05 mm \times0.8 mm with a compression ratio of 16 in the vertical direction. A magnetic system providing 1.1 T magnetic field, which is nearly seven times higher than the Brillouin field, is designed, and beam transmission in the 0.1 mm \times0.85 mm beam tunnel is studied by 3-D particle-in-cell (PIC) simulation. It is demonstrated that the beam has a complex structure of particle distribution, i.e., a high-density central part (core) and a peripheral low-density part (halo). The effect of assembly tolerance on beam transmission is studied. The prototype gun is fabricated, which compresses the beam to 0.1 mm by electrostatic field only. The 135-mA current with 95% transmission through the 0.2-mm anode aperture is measured.
ISSN:0018-9383
1557-9646
DOI:10.1109/TED.2020.3041425