Email this article Investigation of a Near-Electrode Plasma Formed in the Atmospheric Discharge with Employment of Picosecond Laser Probing
- Authors: Parkevich E.V.1, Medvedev M.A.1, Khirianova A.I.1, Ivanenkov G.V.1, Agafonov A.V.1, Selyukov A.S.1, Mingaleev A.R.1, Shelkovenko T.A.1, Pikuz S.A.1
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Affiliations:
- Lebedev Physical Institute, Russian Academy of Sciences
- Issue: Vol 40, No 1 (2019)
- Pages: 56-63
- Section: Article
- URL: https://journals.rcsi.science/1071-2836/article/view/248622
- DOI: https://doi.org/10.1007/s10946-019-09769-5
- ID: 248622
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Abstract
We study the formation of an erosive plasma at the instant of the electrical breakdown of an air gap with a pin-to-plan electrode geometry employing the methods of picosecond laser probing. The discharge is ignited by a 25 kV pulse with a rise time of 4 ns. Interferograms, shadowgrams, and schlieren images of the discharge are obtained with a spatial resolution as high as 3 μm and an exposure time of 70 ps. We demonstrate that ∼1 ns after a sharp rise (∼100 A/ns) of the discharge current, a highly ionized near-cathode plasma with an electron density of ne∼ 1019–1020 cm−3 is formed at the cathode surface together with the clots of a dense plasma with an electron density of \( {n}_e\underset{\sim }{>}{10}^{20} \) cm−3. We show that these highly ionized regions lead to the initiation and development of a spark channel originating from the point cathode. We assume that the observed dense plasma corresponds to the erosive plasma explosively formed from a part of the cathode material.
About the authors
E. V. Parkevich
Lebedev Physical Institute, Russian Academy of Sciences
Author for correspondence.
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
M. A. Medvedev
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
A. I. Khirianova
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
G. V. Ivanenkov
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
A. V. Agafonov
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
A. S. Selyukov
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
A. R. Mingaleev
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
T. A. Shelkovenko
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
S. A. Pikuz
Lebedev Physical Institute, Russian Academy of Sciences
Email: parkevich@phystech.edu
Russian Federation, Leninskii Prospect 53, Moscow, 119991
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