Advanced magnetron injection guns

Advanced magnetron injection guns

This paper describes the improvement of mission uniformity in magnetron injection guns (MIGs) for gyrotrons, and on an inverted MIG for a Ku band coaxial gyrotron. High-power gyrotrons and gyroklystrons are currently in development for a number of RF applications. The annular electron beams for thes...

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Hauptverfasser: Read, M.E., Ives, R.L., Miram, G., Borchard, P., Falce, L., Lawson, W., Nusinovich, G., Granatstein, V., Gunther, K.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Anodes
Coaxial components
Current density
Density measurement
Electron beams
Guns
Gyrotrons
Klystrons
Radio frequency
Temperature
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Beschreibung
Zusammenfassung:This paper describes the improvement of mission uniformity in magnetron injection guns (MIGs) for gyrotrons, and on an inverted MIG for a Ku band coaxial gyrotron. High-power gyrotrons and gyroklystrons are currently in development for a number of RF applications. The annular electron beams for these devices are created with a MIG operating temperature limited, which means the emission current is a function of the localized temperature. Efficient operation of gyrotrons and gyroklystrons requires a high-quality electron beam with low-velocity spread and uniform current density around the circumference of the beam. Advances in computer modeling allow design of electron guns with velocity spreads less than 8%, which is adequate for efficient operation; however, there is substantial evidence that large azimuthal asymmetries in current emission often occur. This can lead to substantial reductions in device efficiency.
DOI:10.1109/ICIMW.2004.1422257