Title :
Improvement of the E-field triggered surface breakdown of dielectric anodes in vacuum ion diodes
Author :
Schultheiss, C. ; Karow, H.U. ; Petasch, W.
Abstract :
Summary form only given. To improve the dielectric flashover of adsorbates at the surface of the hydrocarbon inserts of vacuum diode anodes, start-electrons are implemented by several means. The first method is to trap a layer of electrons at the structured surface (grooves) by means of auxiliary electrodes. This improves the microscopic and macroscopic homogeneity of the ion beam. A second method uses the idea that an electrically weak conducting surface layer donates electrons into the adsorbates, if the electric field parallel to the surface exceeds 10 kV/mm. Experiments with a pinch reflex diode at the 1.2-TW pulse generator Kalif´ have been conducted. Glass-fiber-woven anode inserts have been tested. The weak conductivity of glass and the ability to trap a desired amount of adsorbates (H2, He, and N 2, for example) make it possible to form proper plasmas and to do it without hydrocarbon. It was shown that the microinhomogeneity of the ion beam could be reduced drastically
Keywords :
adsorbed layers; anodes; beam handling equipment; diodes; electric breakdown of solids; 1.2 TW; E-field triggered surface breakdown; H2; He; Kalif´; N2; adsorbates; auxiliary electrodes; dielectric anodes; dielectric flashover; electric field; electrically weak conducting surface layer; electron donation; glass; glass-fibre woven anode inserts; grooves; hydrocarbon inserts; ion beam; macroscopic homogeneity; microinhomogeneity; microscopic homogeneity; pinch reflex diode; plasmas; pulse generator; start-electrons; structured surface; trapped electron layers; vacuum ion diodes;
Conference_Titel :
Plasma Science, 1990. IEEE Conference Record - Abstracts., 1990 IEEE International Conference on
Conference_Location :
Oakland, CA, USA
DOI :
10.1109/PLASMA.1990.110768
