Experimental Studies of Anode and Cathode Materials in a Repetitive Driven Axial Vircator

Author

Elfsberg, Mattias ; Hurtig, Tomas ; Larsson, Anders ; Möller, Cecilia ; Nyholm, Sten E.

Author_Institution

FOI-Swedish Res. Agency, Tumba

Volume

36

Issue

3

fYear

2008

fDate

6/1/2008 12:00:00 AM

Firstpage

688

Lastpage

693

Abstract

Repetitive use of a high-power-microwave radiation source implies strong erosion on cathode and anode materials. Electrode-material endurance has been studied in a series of experiments with an axial virtual cathode oscillator powered by a compact Marx generator. The Marx generator is operated in a 10-Hz repetitive mode with a burst of ten pulses. Velvet and graphite was used as electron-emitting materials, and they showed markedly different pulse characteristics. The following three different anode materials were used: stainless-steel mesh, stainless-steel wires, and molybdenum wires, which all had different influence on the pulse characteristics.

Keywords

anodes; cathodes; erosion; graphite; microwave generation; molybdenum; pulse generators; stainless steel; vircators; wires; C; FeCCrJk; Marx generator; Mo; anode materials; axial virtual cathode oscillator; cathode materials; electrode-material endurance; electron-emitting materials; graphite; high-power-microwave radiation source; material erosion; microwave generation; molybdenum wires; pulse characteristics; repetitive driven axial vircator; stainless-steel mesh; stainless-steel wires; velvet; Anodes; Marx generators; cathodes; high power microwaves; microwave devices; microwave generation; repetitive; vircator;

fLanguage

English

Journal_Title

Plasma Science, IEEE Transactions on

Publisher

ieee

ISSN

0093-3813

Type

jour

DOI

10.1109/TPS.2008.922222

Filename

4494461