Title :
An Improved Treatment of AC Space Charge Fields in Large Signal Simulation Codes
Author :
Dialetis, D. ; Chernin, D. ; Antonsen, T.M., Jr. ; Levush, B.
Author_Institution :
Sci. Applications Int. Corp.
Abstract :
An accurate representation of the AC space charge electric field is required in order to be able to predict the performance of linear beam tubes, including TWTs and klystrons, using a steady state simulation code like CHRISTINE (Antonsen Jr and Lebush, 1997). The model implemented in the current release version of CHRISTINE is based on the assumption that the space charge reduction factor R is insensitive to axial wavenumber k, for a small range of k near kb equiv omega/vb, where omega is the circular frequency of the wave and vb is the beam velocity. This assumption is usually a good one, but we have found cases in which the variation of R with k must be taken into account. We show how this can be done, and illustrate the effect in an example
Keywords :
electron tubes; klystrons; space charge; travelling wave tubes; AC space charge fields; CHRISTINE; TWT; beam velocity; klystrons; large signal simulation codes; linear beam tubes performance; reduction factor bunching; steady state simulation code; wave circular frequency; Boundary conditions; Current density; Electric fields; Frequency; Klystrons; Maxwell equations; Plasma waves; Predictive models; Space charge; Steady-state; bunching; reduction factor; simulation; space charge field;
Conference_Titel :
Vacuum Electronics Conference, 2006 held Jointly with 2006 IEEE International Vacuum Electron Sources., IEEE International
Conference_Location :
Monterey, CA
Print_ISBN :
1-4244-0108-9
DOI :
10.1109/IVELEC.2006.1666371
