Title :
Realization of cavity and drift space designs for a 30 MW, 10 GHz gyroklystron
Author :
Calame, Jeffrey ; Lawson, W. ; Latham, P.E. ; Miller, Steven ; Welsh ; Skopec ; Hogan, B. ; Naiman ; Read, M.E. ; Carmel, Y. ; Granatstein, V.L. ; Striffler, C.D.
Author_Institution :
Maryland Univ., College Park, MD, USA
Abstract :
Summary Form only given, as follows. The final preparations for bringing the University of Maryland 10-GHz, 30-MW gyroklystron experiment online are underway. Successful operation of this device will surpass the state-of-the-art in power capability by three orders of magnitude and will establish the gyroklystron as a primary candidate for driving high-energy linear colliders. The low Q of the input cavity is realized by two thin, carbon-impregnated aluminosilicate annuli located on either end of the cavity at the outer radius. Cold tests have revealed that the required frequency and Q can be achieved with such absorbers. A scattering matrix code was modified to include lossy dielectrics and was successfully compared to analytic results in simple geometries with lossy dielectrics and numerical codes in complex geometries with loss-free dielectrics.<>
Keywords :
cavity resonators; klystrons; 10 GHz; 30 MW; Q; carbon-impregnated aluminosilicate annuli; cavity; complex geometries; drift space designs; gyroklystron; high-energy linear colliders; loss-free dielectrics; lossy dielectrics; power capability; scattering matrix code; Cavity resonators; Klystrons;
Conference_Titel :
Plasma Science, 1989. IEEE Conference Record - Abstracts., 1989 IEEE International Conference on
Conference_Location :
Buffalo, NY, USA
DOI :
10.1109/PLASMA.1989.166182
