Title :
A submillimeter-wave gyroklystron: theory and design
Author :
Nusinovich, Gregory S. ; Walter, Mark T. ; Kremer, Matthew ; Read, Michael E. ; Boehme, D.
Author_Institution :
Maryland Univ., College Park, MD, USA
fDate :
6/1/2000 12:00:00 AM
Abstract :
New elements of the theory and a preliminary design for a pulse/continuous-wave 360-GHz gyroklystron are presented. Issues germane to very high-frequency operation of gyroklystron amplifiers, including drive power and limits on cavity Q, are discussed. A specific two cavity design is described. That device had a gain of 33 dB and a beam extraction power of 1 kW with an electronic efficiency of 8% and a power output of 700 W after taking into account Ohmic losses. To produce fast-rising pulses, the beam velocity ratio was varied via the modulating anode of a magnetron injection gun. A design for an electron gun through which reduction of the output signal by -50 dB was achieved by a 400-V modulation is given. The input coupler, cavities, electron gun, collector, output coupling optics and collector are described. In addition, issues concerning the fabrication of the high precision, ∼2-mm diameter cavities are discussed.
Keywords :
gyrotrons; klystrons; submillimetre wave amplifiers; 1 kW; 360 GHz; 400 V; 700 kW; Ohmic losses; beam extraction power; cavity Q; cavity design; electron gun; electronic efficiency; fast-rising pulses; gyroklystron amplifiers; input coupler; magnetron injection gun; modulating anode; output coupling optics; pulse/continuous-wave gyroklystron; submillimeter-wave gyroklystron; very high-frequency operation; Drives; Electrons; High power amplifiers; Klystrons; Operational amplifiers; Optical amplifiers; Optical coupling; Optical modulation; Pulse amplifiers; Pulse modulation;
Journal_Title :
Plasma Science, IEEE Transactions on
