Supersonic Flow of Vacuum Arc Plasma in a Magnetic Field

We have investigated the supersonic flow of dense plasma, formed by a pulsed vacuum arc, in a magnetic field of about 1 T using probe and optical diagnostics. Two separate magnetic field configurations were examined-an axial field with either converging or diverging lines of force. We find that for...

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Bibliographic Details
Published in:IEEE transactions on plasma science 2021-09, Vol.49 (9), p.2478-2489
Main Authors: Frolova, Valeria P., Nikolaev, Alexey G., Oks, Efim M., Sidorov, Alexander V., Vizir, Alexey V., Vodopyanov, Alexander V., Yushkov, Anatoly Yu, Yushkov, Georgy Yu
Format: Article
Language:English
Subjects:
Cathodes
Convergence
Dense plasmas
Field strength
Flow velocity
Insulators
Ions
Lines of force
Magnetic field
Magnetic field configurations
Magnetic fields
Magnetic resonance
Magnetic separation
Magnetism
Plasma
plasma velocity
Plasmas
Pulse duration
Supersonic flow
supersonic plasma flow
vacuum arc
Vacuum arcs
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Summary:We have investigated the supersonic flow of dense plasma, formed by a pulsed vacuum arc, in a magnetic field of about 1 T using probe and optical diagnostics. Two separate magnetic field configurations were examined-an axial field with either converging or diverging lines of force. We find that for a low-current arc of from 0.4 to 1 kA and pulse duration of 270 \mu \text{s} , the diverging magnetic field leads to increased plasma flow velocity by about a factor of 2.5, whereas the converging magnetic field reduces the velocity by about the same amount. For a high-current arc of from 5 to 30 kA and pulse duration of 40~\mu \text{s} , the plasma flow velocity increases, although the effect of increased field strength on flow velocity is less significant. Here, we describe these observations and other effects of magnetic field on the parameters of the vacuum arc plasma flow.
ISSN:0093-3813
1939-9375
DOI:10.1109/TPS.2021.3088154