Title :
Design of a 7 MW, 95 GHz, three-cavity gyroklystron
Author :
Arjona, Melany R. ; Lawson, Wesley J.
Author_Institution :
Dept. of Electr. Eng., Maryland Univ., College Park, MD, USA
fDate :
4/1/1999 12:00:00 AM
Abstract :
In this paper we present a three-cavity design of a gyroklystron amplifier at 95 GHz. We present the design of the magnetron injection gun (MIG), the magnetic field coils, and the three-cavity microwave circuit. The MIG produces a 500 kV, 45 A small orbit annular beam with an average perpendicular-to-parallel velocity ratio of 1.5 and a parallel velocity spread below 5% (RMS). The MIG requires a control anode with a voltage of about 65 kV, a magnetic compression of about 30, and a cathode loading near 10 A/cm2. The circuit magnetic field is about 28.7 kG. The microwave circuit has a first-harmonic TE 011 input cavity which is driven at 47.5 GHz, and second-harmonic TE021 buncher and output cavities which are resonant at 95 GHz. A peak power of 7.56 MW is obtained with 51.6 dB gain and 33.6% efficiency. A complete description of the system is presented along with a systematic study of the sensitivity of the device to parametric variations
Keywords :
cavity resonators; coils; electron guns; gyrotrons; klystrons; millimetre wave power amplifiers; millimetre wave tubes; 28.7 kG; 33.6 percent; 45 A; 47.5 GHz; 500 kV; 51.6 dB; 65 kV; 7 to 7.56 MW; 95 GHz; cathode loading; control anode; first-harmonic TE011 input cavity; gyroklystron amplifier design; magnetic compression; magnetic field coils; magnetron injection gun; output cavities; parametric variations sensitivity; second-harmonic TE021 buncher; three-cavity gyroklystron; three-cavity microwave circuit; Anodes; Cathodes; Coils; Klystrons; Magnetic circuits; Magnetic fields; Microwave circuits; RLC circuits; Tellurium; Voltage control;
Journal_Title :
Plasma Science, IEEE Transactions on
