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High efficiency, phase-locked operation of the harmonic-multiplyinginverted gyrotwystron oscillator
Authors:Rodgers   J. Guo   H. Granatstein   V.L. Chen   S.H. Nusinovich   G.S. Walter   M. Zhao   J.
Affiliation:Lab. for Plasma Res., Maryland Univ., College Park, MD;
Abstract:The inverted gyrotwystron (phigtron) is a millimeter wave frequency-doubling amplifier that has been demonstrated to produce over 300 kW peak power at twice the input frequency (centered at fin =16.85 GHz and fout=33.7 GHz) over a 0.5% bandwidth with a saturated gain of 30 dB and efficiency greater than 35%. The device has also been studied both theoretically and experimentally in a different operating regime where frequency-doubled, phase-locked oscillation is possible. A signal, injected via a fundamental gyro-traveling wave tube input section, modulated a 55 kV, 10 A electron beam. After transit through a drift section, the prebunched electron beam produced phase-locked, second harmonic oscillations in a TE03 mode output cavity. RF output centered at either of two frequencies, 34.42 and 34.62 GHz, with a maximum output power of 180 kW, an efficiency of 32% and a locked signal gain of 35 dB was measured. A theoretical prediction of locking bandwidth, a design overview, and the experimental results are presented followed by a summary and discussion of the results
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