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Plasma dynamics in microsecond megaampere plasma opening switches

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Zeitschriftentitel: Physics of Plasmas
Personen und Körperschaften: Loginov, S. V.
In: Physics of Plasmas, 18, 2011, 10
Format: E-Article
Sprache: Englisch
veröffentlicht:
AIP Publishing
Schlagwörter:
Condensed Matter Physics
author_facet Loginov, S. V.
Loginov, S. V.
author Loginov, S. V.
spellingShingle Loginov, S. V.
Physics of Plasmas
Plasma dynamics in microsecond megaampere plasma opening switches
Condensed Matter Physics
author_sort loginov, s. v.
spelling Loginov, S. V. 1070-664X 1089-7674 AIP Publishing Condensed Matter Physics http://dx.doi.org/10.1063/1.3649944 <jats:p>The paper considers the transport of a magnetic field in highly ionized plasma of microsecond megaampere plasma opening switches. Self-similar solutions for plasma aggregation by a linearly increasing magnetic field are derived. For these solutions, the magnetic field energy in the current channel is much lower than the energy of the accelerated plasma flow. The effect of Joule heating of the plasma becomes profound only with a uniform current density. It is shown that the evolution of the magnetic field in the accelerated flow is reduced to diffusion with an effective electrical conductivity proportional to the harmonic average of the Spitzer conductivity and conductivity dependent on the magnetic field in the current channel. Thus, during about the first 100 ns of the current pulse the conductivity of the current channel increases due to the plasma heating and, as the plasma is accelerated, its conductivity decreases.</jats:p> Plasma dynamics in microsecond megaampere plasma opening switches Physics of Plasmas
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series Physics of Plasmas
source_id 49
title Plasma dynamics in microsecond megaampere plasma opening switches
title_unstemmed Plasma dynamics in microsecond megaampere plasma opening switches
title_full Plasma dynamics in microsecond megaampere plasma opening switches
title_fullStr Plasma dynamics in microsecond megaampere plasma opening switches
title_full_unstemmed Plasma dynamics in microsecond megaampere plasma opening switches
title_short Plasma dynamics in microsecond megaampere plasma opening switches
title_sort plasma dynamics in microsecond megaampere plasma opening switches
topic Condensed Matter Physics
url http://dx.doi.org/10.1063/1.3649944
publishDate 2011
physical
description <jats:p>The paper considers the transport of a magnetic field in highly ionized plasma of microsecond megaampere plasma opening switches. Self-similar solutions for plasma aggregation by a linearly increasing magnetic field are derived. For these solutions, the magnetic field energy in the current channel is much lower than the energy of the accelerated plasma flow. The effect of Joule heating of the plasma becomes profound only with a uniform current density. It is shown that the evolution of the magnetic field in the accelerated flow is reduced to diffusion with an effective electrical conductivity proportional to the harmonic average of the Spitzer conductivity and conductivity dependent on the magnetic field in the current channel. Thus, during about the first 100 ns of the current pulse the conductivity of the current channel increases due to the plasma heating and, as the plasma is accelerated, its conductivity decreases.</jats:p>
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author Loginov, S. V.
author_facet Loginov, S. V., Loginov, S. V.
author_sort loginov, s. v.
container_issue 10
container_start_page 0
container_title Physics of Plasmas
container_volume 18
description <jats:p>The paper considers the transport of a magnetic field in highly ionized plasma of microsecond megaampere plasma opening switches. Self-similar solutions for plasma aggregation by a linearly increasing magnetic field are derived. For these solutions, the magnetic field energy in the current channel is much lower than the energy of the accelerated plasma flow. The effect of Joule heating of the plasma becomes profound only with a uniform current density. It is shown that the evolution of the magnetic field in the accelerated flow is reduced to diffusion with an effective electrical conductivity proportional to the harmonic average of the Spitzer conductivity and conductivity dependent on the magnetic field in the current channel. Thus, during about the first 100 ns of the current pulse the conductivity of the current channel increases due to the plasma heating and, as the plasma is accelerated, its conductivity decreases.</jats:p>
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publishDate 2011
publishDateSort 2011
publisher AIP Publishing
record_format ai
recordtype ai
series Physics of Plasmas
source_id 49
spelling Loginov, S. V. 1070-664X 1089-7674 AIP Publishing Condensed Matter Physics http://dx.doi.org/10.1063/1.3649944 <jats:p>The paper considers the transport of a magnetic field in highly ionized plasma of microsecond megaampere plasma opening switches. Self-similar solutions for plasma aggregation by a linearly increasing magnetic field are derived. For these solutions, the magnetic field energy in the current channel is much lower than the energy of the accelerated plasma flow. The effect of Joule heating of the plasma becomes profound only with a uniform current density. It is shown that the evolution of the magnetic field in the accelerated flow is reduced to diffusion with an effective electrical conductivity proportional to the harmonic average of the Spitzer conductivity and conductivity dependent on the magnetic field in the current channel. Thus, during about the first 100 ns of the current pulse the conductivity of the current channel increases due to the plasma heating and, as the plasma is accelerated, its conductivity decreases.</jats:p> Plasma dynamics in microsecond megaampere plasma opening switches Physics of Plasmas
spellingShingle Loginov, S. V., Physics of Plasmas, Plasma dynamics in microsecond megaampere plasma opening switches, Condensed Matter Physics
title Plasma dynamics in microsecond megaampere plasma opening switches
title_full Plasma dynamics in microsecond megaampere plasma opening switches
title_fullStr Plasma dynamics in microsecond megaampere plasma opening switches
title_full_unstemmed Plasma dynamics in microsecond megaampere plasma opening switches
title_short Plasma dynamics in microsecond megaampere plasma opening switches
title_sort plasma dynamics in microsecond megaampere plasma opening switches
title_unstemmed Plasma dynamics in microsecond megaampere plasma opening switches
topic Condensed Matter Physics
url http://dx.doi.org/10.1063/1.3649944