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Title: Shielded serpentine traveling wave tube deflection structure

Abstract

A shielded serpentine slow wave deflection structure is disclosed having a serpentine signal conductor within a channel groove. The channel groove is formed by a serpentine channel in a trough plate and a ground plane. The serpentine signal conductor is supported at its ends by coaxial feed through connectors. A beam interaction trough intersects the channel groove to form a plurality of beam interaction regions wherein an electron beam may be deflected relative to the serpentine signal conductor. 4 figures.

Inventors:
;
Issue Date:
Research Org.:
EG & G Energy Measurements Inc
OSTI Identifier:
6615185
Patent Number(s):
5376864 A
Application Number:
PPN: US 7-968630
Assignee:
Dept. of Energy, Washington, DC (United States)
DOE Contract Number:  
AC08-88NV10617
Resource Type:
Patent
Resource Relation:
Patent File Date: 29 Oct 1992
Country of Publication:
United States
Language:
English
Subject:
42 ENGINEERING; TRAVELLING WAVE TUBES; DESIGN; BEAM OPTICS; CONNECTORS; ELECTRON BEAMS; WAVEGUIDES; BEAMS; CONDUCTOR DEVICES; ELECTRICAL EQUIPMENT; ELECTRON TUBES; ELECTRONIC EQUIPMENT; EQUIPMENT; LEPTON BEAMS; MICROWAVE EQUIPMENT; MICROWAVE TUBES; PARTICLE BEAMS; 426000* - Engineering- Components, Electron Devices & Circuits- (1990-)

Citation Formats

Hudson, C L, and Spector, J. Shielded serpentine traveling wave tube deflection structure. United States: N. p., 1994. Web.
Hudson, C L, & Spector, J. Shielded serpentine traveling wave tube deflection structure. United States.
Hudson, C L, and Spector, J. Tue . "Shielded serpentine traveling wave tube deflection structure". United States.
@article{osti_6615185,
title = {Shielded serpentine traveling wave tube deflection structure},
author = {Hudson, C L and Spector, J},
abstractNote = {A shielded serpentine slow wave deflection structure is disclosed having a serpentine signal conductor within a channel groove. The channel groove is formed by a serpentine channel in a trough plate and a ground plane. The serpentine signal conductor is supported at its ends by coaxial feed through connectors. A beam interaction trough intersects the channel groove to form a plurality of beam interaction regions wherein an electron beam may be deflected relative to the serpentine signal conductor. 4 figures.},
doi = {},
journal = {},
number = ,
volume = ,
place = {United States},
year = {1994},
month = {12}
}