Title :
Super-reltron theory and experiments
Author :
Miller, R. Bruce ; McCullough, William F. ; Lancaster, Kim T. ; Muehlenweg, Carl A.
Author_Institution :
Titan Spectron., Albuquerque, NM, USA
fDate :
6/1/1992 12:00:00 AM
Abstract :
A highly efficient, high-power microwave tube called super-reltron is reported. The authors have achieved operation at >400 MW with ~50% efficiency at 1 GHz, and 250 MW with 40% efficiency at 3 GHz. The RF pulse durations are typically a few hundred nanoseconds. These compact lightweight tubes do not require an external magnetic field. The RF output coupling is straightforward and delivers the power directly via the fundamental TE10 wave in a rectangular waveguide without a mode converter. The key features of the tube include (i) generation of a well-modulated electron beam by periodic virtual cathode formation, (ii) postacceleration of the modulated beam to reduce the relative electron energy spread, and (iii) a multicavity output section that efficiently extracts power without RF breakdown. Various theoretical aspects of the device are discussed and the experimental results are summarized
Keywords :
electron beams; microwave tubes; 1 to 3 GHz; 250 MW; 40 to 50 percent; 400 MW; RF pulse durations; compact lightweight tubes; electron beam; fundamental TE10 wave; high-power microwave tube; modulated beam; multicavity output section; periodic virtual cathode formation; postacceleration; rectangular waveguide; super-reltron; Cathodes; Electric breakdown; Electron beams; Electron tubes; Magnetic fields; Optical modulation; Power generation; Radio frequency; Rectangular waveguides; Tellurium;
Journal_Title :
Plasma Science, IEEE Transactions on
