Title :
Advanced magnetron injection guns
Author :
Read, M.E. ; Ives, R.L. ; Miram, G. ; Borchard, P. ; Falce, L. ; Lawson, Wesley ; Nusinovich, Gregory ; Granatstein, Victor ; Gunther, Kim
Author_Institution :
Calabazas Creek Res., Saratoga, CA, USA
fDate :
27 Sept.-1 Oct. 2004
Abstract :
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.
Keywords :
current density; electron beams; electron emission; electron guns; gyrotrons; klystrons; magnetrons; Ku band coaxial gyrotron; RF applications; annular electron beams; computer modeling; current density; current emission; electron guns; gyroklystrons; inverted magnetron injection guns; Anodes; Coaxial components; Current density; Density measurement; Electron beams; Guns; Gyrotrons; Klystrons; Radio frequency; Temperature;
Conference_Titel :
Infrared and Millimeter Waves, 2004 and 12th International Conference on Terahertz Electronics, 2004. Conference Digest of the 2004 Joint 29th International Conference on
Print_ISBN :
0-7803-8490-3
DOI :
10.1109/ICIMW.2004.1422257
