Atmospheric pressure plasma propagation inside long dielectric tubes is analyzed for the first time through nonintrusive and nonperturbative time resolved bi-directional electric field (EF) measurements. This study unveils that plasma propagation occurs in a region where longitudinal EF exists ahead the ionization front position usually revealed from plasma emission with ICCD measurement. The ionization front propagation induces the sudden rise of a radial EF component. Both of these EF components have an amplitude of several kV/cm for helium or neon plasmas and are preserved almost constant along a few tens of cm inside a capillary. All these experimental measurements are in excellent agreement with previous model calculations. The key roles of the voltage pulse polarity and of the target nature on the helium flow patterns when plasma jet is emerging in ambient air are documented from Schlieren visualization. The second part of this work is then dedicated to the development of multi jet systems, using two different setups, based on a single plasma source. Plasma splitting in dielectric tubes drilled with sub millimetric orifices, but also plasma transfer across metallic tubes equipped with such orifices are reported and analyzed from ICCD imaging and time resolved EF measurements. This allows for the design and the feasibility validation of plasma jet arrays but also emphasizes the necessity to account for voltage pulse polarity, target potential status, consecutive helium flow modulation, and electrostatic influence between the produced secondary jets.
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December 2015
Research Article|
November 02 2015
New insights on the propagation of pulsed atmospheric plasma streams: From single jet to multi jet arrays
E. Robert
;
E. Robert
GREMI, UMR 7344,
CNRS/Université d'Orléans
, BP 6744, 45067 Orléans Cedex 2, France
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T. Darny;
T. Darny
GREMI, UMR 7344,
CNRS/Université d'Orléans
, BP 6744, 45067 Orléans Cedex 2, France
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S. Dozias;
S. Dozias
GREMI, UMR 7344,
CNRS/Université d'Orléans
, BP 6744, 45067 Orléans Cedex 2, France
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S. Iseni;
S. Iseni
GREMI, UMR 7344,
CNRS/Université d'Orléans
, BP 6744, 45067 Orléans Cedex 2, France
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J. M. Pouvesle
J. M. Pouvesle
GREMI, UMR 7344,
CNRS/Université d'Orléans
, BP 6744, 45067 Orléans Cedex 2, France
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Phys. Plasmas 22, 122007 (2015)
Article history
Received:
April 23 2015
Accepted:
July 20 2015
Citation
E. Robert, T. Darny, S. Dozias, S. Iseni, J. M. Pouvesle; New insights on the propagation of pulsed atmospheric plasma streams: From single jet to multi jet arrays. Phys. Plasmas 1 December 2015; 22 (12): 122007. https://doi.org/10.1063/1.4934655
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