Energetic high-voltage breakdowns in vacuum over a large gap for ITER neutral beam accelerator

► We performed energetic high voltage breakdowns up to 370kV with a stored energy of 1kJ. ► No breakdowns at 200kV could be produced over a gap of 85mm using 100cm2 copper electrodes. ► Electrodes damage was visible after the experiment. ► The number of arcs impacts is orders of magnitude above the...

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Bibliographic Details
Published in:Fusion engineering and design 2013-10, Vol.88 (6-8), p.891-894
Main Authors: Villecroze, F., Christin, L., de Esch, H.P.L., Simonin, A., Schunke, B., Svensson, L., Hemsworth, R., Boilson, D.
Format: Article
Language:English
Subjects:
Breakdown
Capacitors
Cathodes
Copper
Dissipation
Electric fields
Electric potential
Electrodes
High-voltage
ITER
Neutral beam
Stored energy
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Summary:► We performed energetic high voltage breakdowns up to 370kV with a stored energy of 1kJ. ► No breakdowns at 200kV could be produced over a gap of 85mm using 100cm2 copper electrodes. ► Electrodes damage was visible after the experiment. ► The number of arcs impacts is orders of magnitude above the number of breakdowns. CEA has undertaken tests to study the resilience of copper electrodes in vacuum against energetic high-voltage breakdowns using external capacitors to provide the energy. Earlier tests succeeded in dissipating a maximum of 150J in a 30mm gap, limited by the equivalent series resistance (ESR) in the external capacitors. Using new ones with an ESR that is a factor of 10 lower it was unsuccessfully tried to produce breakdowns at 200kV over the 85mm gap, despite the use of a UV flash lamp and a “field enhancement ring” (FER) that locally increased the electric field on the cathode by 50%. Consequently, the breakdowns had to be produced by raising the voltage to 300–350kV while maintaining the gap at 85mm. During these tests, single breakdowns dissipated up to 1140J in the 85mm vacuum gap. Inspection of the electrodes revealed that substantial amounts of copper appear have been evaporated from the anode and deposited on to the cathode. Also electrode deconditioning occurred.
ISSN:0920-3796
1873-7196
DOI:10.1016/j.fusengdes.2012.12.012