Influence of electrode spacing and gas pressure on parameters of a runaway electron beam generating during the nanosecond breakdown in SF(6) and nitrogen

This study deals with experimental and theoretical simulation data showing the influence of electrode spacing and gas pressure on parameters of a supershort avalanche electron beam (SAEB) formed in SF(6) and nitrogen at different rise times and amplitudes of a voltage pulse. Using GIN-55-01, VPG-30-...

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Bibliographic Details
Published in:High voltage 2017-04
Main Authors: Victor F. Tarasenko, Cheng Zhang, Andrey V. Kozyrev, Dmitry A. Sorokin, Xingmin Hou, Natalya S. Semeniuk, Alexander G. Burachenko, Ping Yan, Vasily Yu. Kozhevnikov, Evgenii Kh. Baksht, Mikhail I. Lomaev, Tao Shao
Format: Article
Language:English
Subjects:
anode foil
avalanche breakdown
electrode spacing
gas pressure
GIN-55-01
nanosecond breakdown
nitrogen
runaway electron beam
SAEB
SAEB current pulse amplitude
SF insulation
SLEP-150M pulsers
supershort avalanche electron beam
tubular cathodes
VPG-30-200
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Summary:This study deals with experimental and theoretical simulation data showing the influence of electrode spacing and gas pressure on parameters of a supershort avalanche electron beam (SAEB) formed in SF(6) and nitrogen at different rise times and amplitudes of a voltage pulse. Using GIN-55-01, VPG-30-200, and SLEP-150M pulsers, tubular cathodes with a diameter of 6 mm, as well as gaps of 3, 5, and 8 mm, it was shown that the SAEB current amplitude can both increase and decrease depending on an electrode spacing, a waveform and a rise time of the voltage pulse, as well as the pressure of SF(6) and nitrogen. It was established as a result of simulation that maximal voltage across the gap during the process of generation of runaway electrons and the thickness of an anode foil have a major effect on the SAEB current pulse amplitude.
ISSN:2397-7264
DOI:10.1049/hve.2017.0014