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Detailed numerical simulation of cathode spots in vacuum arcs: Interplay of different mechanisms and ejection of droplets
A model of cathode spots in high-current vacuum arcs is developed with account of all the potentially relevant mechanisms: the bombardment of the cathode surface by ions coming from a pre-existing plasma cloud; vaporization of the cathode material in the spot, its ionization, and the interaction of...
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Published in: | Journal of applied physics 2017-10, Vol.122 (16) |
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Main Authors: | , , , , |
Format: | Article |
Language: | English |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | A model of cathode spots in high-current vacuum arcs is developed with account of all the
potentially relevant mechanisms: the bombardment of the cathode surface by ions coming
from a pre-existing plasma cloud; vaporization of the cathode material in the spot, its
ionization, and the interaction of the produced plasma with the cathode; the Joule heat
generation in the cathode body; melting of the cathode material and motion of the melt
under the effect of the plasma pressure and the Lorentz force and related phenomena. After
the spot has been ignited by the action of the cloud (which takes a few nanoseconds), the
metal in the spot is melted and accelerated toward the periphery of the spot, with the
main driving force being the pressure due to incident ions. Electron emission cooling and
convective heat transfer are dominant mechanisms of cooling in the spot, limiting the
maximum temperature of the cathode to approximately 4700–4800 K. A crater is formed on the
cathode surface in this way. After the plasma cloud has been extinguished, a liquid-metal
jet is formed and a droplet is ejected. No explosions have been observed. The modeling
results conform to estimates of different mechanisms of cathode erosion derived from the
experimental data on the net and ion erosion of copper cathodes. |
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ISSN: | 0021-8979 1089-7550 |
DOI: | 10.1063/1.4995368 |