Title :
High-power microwave generation using a ferroelectric cathode electron gun
Author :
Hayashi, Yasushi ; Song, X. ; Ivers, J.D. ; Flechtner, Donald D. ; Nation, J.A. ; Schacter, L.
Author_Institution :
Sch. of Electr. Eng., Cornell Univ., Ithaca, NY, USA
fDate :
8/1/2001 12:00:00 AM
Abstract :
A two-stage 500 kV 200-A ferroelectric electron gun has been designed, fabricated, tested, and used in a high power microwave amplifier experiment. We report on the operational characteristics of the gun including measurements of the beam dynamics. The optimum conditions for application of the trigger and its timing are also reported. Faraday cup measurement shows that the beam radius is 4.1 mm, in good agreement with simulation. The gun is designed for use in traveling-wave tube amplifiers, and testing of an X-band amplifier driven by the gun is reported. A peak output power of 5.9 MW has been observed from a single stage amplifier driven by a 100 A. 450 kV beam. This corresponds to energy converging efficiency of 13.1% and is the first observation of high power (~MW) microwave generation using the beam generated from a ferroelectric cathode,
Keywords :
cathodes; electron guns; ferroelectric devices; microwave amplifiers; microwave generation; travelling wave tubes; 100 A; 13.1 percent; 200 A; 4.1 mm; 450 kV; 5.9 MW; 500 kV; Faraday cup measurement; beam dynamics; electron beams; ferroelectric cathode electron gun; high-power microwave generation; microwave amplification; operational characteristics; travelling wave tubes; Cathodes; Electrons; Ferroelectric materials; High power amplifiers; Microwave amplifiers; Microwave generation; Power amplifiers; Power generation; Testing; Timing;
Journal_Title :
Plasma Science, IEEE Transactions on
