Time-resolved investigation of nanosecond discharge in dense gas sustained by short and long high-voltage pulse

Time-resolved investigation of nanosecond discharge in dense gas sustained by short and long high-voltage pulse

The results of experimental and numerical studies of the generation of runaway electrons (RAE) in a pressurized air-filled diode under the application of 20 ns, 5 ns and 1 ns duration high-voltage pulses with an amplitude up to 160 kV are presented. It is shown that with a 1 ns pulse, RAE with energ...

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Veröffentlicht in:Europhysics letters 2011-12, Vol.96 (6), p.65001
Hauptverfasser: Yatom, S., Gleizer, J. Z., Levko, D., Vekselman, V., Gurovich, V., Hupf, E., Hadas, Y., Krasik, Ya. E.
Format: Artikel
Sprache:eng
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Zusammenfassung:The results of experimental and numerical studies of the generation of runaway electrons (RAE) in a pressurized air-filled diode under the application of 20 ns, 5 ns and 1 ns duration high-voltage pulses with an amplitude up to 160 kV are presented. It is shown that with a 1 ns pulse, RAE with energy ⩾20 keV reach the anode prior to the formation of the plasma channel between the cathode and anode. Conversely, with 20 ns or 5 ns pulses, RAE with energy ⩾20 keV were obtained at the anode only after the formation of the plasma channel. In addition, the high- and low-impedance stages of the development of the discharge were found. Finally, a comparison between experimental and numerical simulation results is presented.
ISSN:0295-5075
1286-4854
DOI:10.1209/0295-5075/96/65001