Title :
Guiding center fluid model of the crossed-field amplifier
Author :
Riyopoulos, Spilios A. ; Chernin, D.P. ; Drobot, Adam T.
Author_Institution :
Sci. Applications Int. Corp., McLean, VA, USA
fDate :
6/1/1992 12:00:00 AM
Abstract :
A closed, nonlinear set of fluid equations, based on the electron guiding center orbits, is developed to model the CFA behavior. In synchronism with the RF signal frame, the streamlines follow the equipotential surfaces of the transformed fields. In steady state, the flow is incompressible. The equations are implemented in a numerical algorithm that is much faster and more efficient than existing particle codes and shows good agreement with experimental results for V-I curves, over a wide parameter regime. Both analysis and simulation show that the hub density controls the RF amplification and saturation mechanisms. Anode current is determined by the difference of the E× B drift at the top of the hub from the RF phase velocity. Secondary production depends on the energy of the impacting electrons, and thus is sensitive to the electrostatic shielding of the cathode. The pass-to-pass fluctuations at the tube´s output are connected to the oscillations in the hub density during each pass
Keywords :
electrodynamics; microwave amplifiers; microwave tubes; nonlinear equations; RF amplification; RF phase velocity; V-I curves; anode current; closed nonlinear equations; crossed-field amplifier; electrostatic shielding; equipotential surfaces; guiding centre fluid model; hub density; incompressible flow; numerical algorithm; pass-to-pass fluctuations; saturation mechanisms; secondary production; spoke dynamics; transformed fields; Analytical models; Anodes; Electrons; Electrostatics; Nonlinear equations; Orbits; Production; Radio frequency; Radiofrequency amplifiers; Steady-state;
Journal_Title :
Electron Devices, IEEE Transactions on
