Title :
Surface breakdown phenomena in alumina rf windows
Author_Institution :
KEK, Nat. Lab. for High Energy Phys., Ibaraki, Japan
fDate :
4/1/1995 12:00:00 AM
Abstract :
The multipactor and flashover phenomena of alumina rf windows used in a high-power klystron have been investigated. Multipactoring due to the high yield of secondary electron emission takes place during rf operation. A spectrum analysis of luminescence due to multipactoring shows that multipactor electron bombardment causes F centers in alumina, thus leading to surface melting. From the results of a high-power examination of rf windows with several kinds of alumina ceramic, it was found that alumina with a crystallized grain boundary and without any voids between the boundaries, thus having a low loss tangent value, is not liable for F centers, even under multipactoring. Flashover in a tree-like pattern of alumina luminescence occasionally takes place on a TiN-coated surface where multipactoring is suppressed. A sapphire window, whose surface was polished and having pre-existing F centers, shows a lower flashover threshold. The annealing effect of polished window surfaces was also investigated
Keywords :
alumina; cathodoluminescence; ceramic insulation; dielectric losses; electron tube components; flashover; klystrons; secondary electron emission; surface discharges; Al2O3; F centers; alumina RF window; annealing effect; crystallized grain boundary; electrical insulator; flashover phenomena; flashover threshold; high-power klystron; low loss tangent value; luminescence; multipactor electron bombardment; multipactor phenomena; sapphire window; secondary electron emission; spectrum analysis; surface breakdown phenomena; surface melting; tree-like pattern; Ceramics; Coatings; Dielectric materials; Electric breakdown; Electron emission; Flashover; Klystrons; Luminescence; Radio frequency; Thermal conductivity;
Journal_Title :
Dielectrics and Electrical Insulation, IEEE Transactions on
