Plasma opening switch (POS) experiments were conducted on the Hawk generator using an inverse pinch plasma source to inject a hydrogen plasma. Using a combination of interferometry, current measurements, and spectroscopic observations, it is shown that the conduction phase is characterized by the propagation of a current channel through the switch region that pushes a significant fraction of the plasma mass downstream, past the load edge of the switch. The data indicate that the current channel arrives at the load edge of the switch into the 950-ns-long conduction phase, in agreement with calculations based on displacement. Previously published POS experiments, using multispecies plasmas, observed that a relatively small fraction of the injected plasma mass propagated downstream and that the conduction phase ended soon after the current channel reached the load edge of the switch. It is suggested that the observed differences between these two types of switches involves the separation of ionic species subject to a magnetic force, where the light-ion plasma is pushed ahead of the magnetic field front and the heavier-ion plasma is penetrated by the field. Species-separation effects may be important in a multispecies POS but would be negligible in this almost pure proton-plasma experiment. While the important role of the plasma composition in pulsed magnetic field plasma interactions has been pointed out in previous experimental studies, this work demonstrates that the plasma composition can have a significant effect on the conduction time of a POS.
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February 2005
Research Article|
January 07 2005
Characterization of the conduction phase of a plasma opening switch using a hydrogen plasma
J. J. Moschella;
J. J. Moschella
HY-Tech Research Corporation
, Radford, Virginia 24141
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C. C. Klepper;
C. C. Klepper
HY-Tech Research Corporation
, Radford, Virginia 24141
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C. Vidoli;
C. Vidoli
HY-Tech Research Corporation
, Radford, Virginia 24141
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E. J. Yadlowsky;
E. J. Yadlowsky
HY-Tech Research Corporation
, Radford, Virginia 24141
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B. V. Weber;
B. V. Weber
Pulsed Power Physics Branch, Plasma Physics Division, Naval Research Laboratory
, Washington, D.C. 20375
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R. J. Commisso;
R. J. Commisso
Pulsed Power Physics Branch, Plasma Physics Division, Naval Research Laboratory
, Washington, D.C. 20375
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D. C. Black;
D. C. Black
Pulsed Power Physics Branch, Plasma Physics Division, Naval Research Laboratory
, Washington, D.C. 20375
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B. Moosman;
B. Moosman
Pulsed Power Physics Branch, Plasma Physics Division, Naval Research Laboratory
, Washington, D.C. 20375
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S. J. Stephanakis;
S. J. Stephanakis
Pulsed Power Physics Branch, Plasma Physics Division, Naval Research Laboratory
, Washington, D.C. 20375
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D. D. Hinshelwood;
D. D. Hinshelwood
Pulsed Power Physics Branch, Plasma Physics Division, Naval Research Laboratory
, Washington, D.C. 20375
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Y. Maron
Y. Maron
Weizmann Institute of Science
, Rehovot 76100, Israel
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Phys. Plasmas 12, 023102 (2005)
Article history
Received:
May 11 2004
Accepted:
October 21 2004
Citation
J. J. Moschella, C. C. Klepper, C. Vidoli, E. J. Yadlowsky, B. V. Weber, R. J. Commisso, D. C. Black, B. Moosman, S. J. Stephanakis, D. D. Hinshelwood, Y. Maron; Characterization of the conduction phase of a plasma opening switch using a hydrogen plasma. Phys. Plasmas 1 February 2005; 12 (2): 023102. https://doi.org/10.1063/1.1835981
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