Title :
Experimental Studies of the Influence of a Resonance Cavity in an Axial Vircator
Author :
Möller, Cecilia ; Elfsberg, Mattias ; Larsson, Anders ; Nyholm, Sten E.
Author_Institution :
Defence & Security Syst. & Technol., Swedish Defence Res. Agency (FOI), Tumba, Sweden
fDate :
6/1/2010 12:00:00 AM
Abstract :
Experiments on an axial virtual-cathode oscillator (vircator) with a resonance cavity enclosing the virtual cathode are reported. The vircator is driven by a repetitive Marx generator operating in a single-shot mode. To be able to separate different radiation mechanisms, the design of the vircator allows adjustment of the cavity depth as well as the way microwave radiation is extracted. The microwave radiation is measured with a pair of free-field B-dot sensors. The maximum field strengths were registered when the bandwidth was very narrow.
Keywords :
cavity resonators; pulse generators; vircators; axial vircator; cavity depth adjustment; experimental studies; free-field B-dot sensors; microwave radiation extraction; radiation mechanisms; repetitive Marx generator; resonance cavity influence; virtual-cathode oscillator; Axial virtual-cathode oscillator (vircator); high-power microwave; resonant cavity;
Journal_Title :
Plasma Science, IEEE Transactions on
DOI :
10.1109/TPS.2010.2042822
