Title :
Breakdown of dielectric/vacuum interfaces caused by high power microwaves
Author :
Neuber, A. ; Dickens, J. ; Hemmert, D. ; Krompholz, H. ; Hatfield, L.L. ; Kristiansen, M.
Author_Institution :
Dept. of Electr. Eng., Texas Tech. Univ., Lubbock, TX, USA
Abstract :
Summary form only given. Physical mechanisms leading to microwave breakdown on dielectric/vacuum interfaces are investigated for power levels on the order of 100 MW at 2.85 GHz. A 3 MW magnetron with 3.5 /spl mu/s pulse width, is coupled to an S-band traveling wave resonator which is kept at a pressure of 10/sup -8/ Torr. The investigation is focused on an interface geometry comprising a thin dielectric polymer slab in the waveguide, oriented vertical to the direction of wave propagation, and two field enhancement tips placed in the middle of each waveguide broad wall. This ensures an almost purely tangential field at the interface surface and a localized breakdown.
Keywords :
cathodoluminescence; electric breakdown; magnetrons; secondary electron emission; 100 MW; 1E-8 torr; 2.85 GHz; 3 MW; S-band traveling wave resonator; dielectric/vacuum interfaces breakdown; field enhancement tips; high power microwaves; interface geometry; localized breakdown; magnetron; microwave breakdown; physical mechanisms; thin dielectric polymer slab; waveguide; Couplings; Dielectric breakdown; Electric breakdown; Electron emission; Hydrogen; Physics; Saturation magnetization; Space vector pulse width modulation; Vacuum breakdown; Vacuum technology;
Conference_Titel :
Plasma Science, 1998. 25th Anniversary. IEEE Conference Record - Abstracts. 1998 IEEE International on
Conference_Location :
Raleigh, NC, USA
Print_ISBN :
0-7803-4792-7
DOI :
10.1109/PLASMA.1998.677696
