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Article Dans Une Revue Plasma Sources Science and Technology Année : 2023

Kinetic mechanism and sub-ns measurements of the thermal spark in air

Résumé

This experimental and numerical study is focused on the formation of fully ionized plasmas in ambient air by nanosecond pulsed discharges, namely the thermal spark. The first contribution of this article is the experimental characterization of the electron number density during the pulse. An increase of the electron number density up to 10 19 cm-3 was measured with sub-nanosecond resolution via three techniques based on optical emission spectroscopy (OES): Stark broadening of Hα, Stark broadening of N + /O + , and the continuum emission of electrons. The discharge diameter is measured with sub-nanosecond resolution using calibrated OES of the N + and O + lines. All measurements indicate a transition to a micrometric-size filament of fully ionized plasma in approximately 0.5 ns. The second main contribution of this work is the development of a 0-D kinetic mechanism to explain this observation. The mechanism includes 100 reactions, 12 species, and 12 excited electronic states. Particular attention is paid to modeling the N2, N2 + , N, and O electronic state kinetics using the electronic states as additional pseudo-species. Our results show that including the electron-impact ionization of the excited electronic states of N and O, in addition to those of N2, is necessary to explain the experimental results, emphasizing the key role of excited state kinetics in the thermal spark formation.
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Dates et versions

hal-04061759 , version 1 (07-04-2023)
hal-04061759 , version 2 (13-05-2023)

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Nicolas Q Minesi, Pierre B Mariotto, Erwan Pannier, Axel Vincent- Randonnier, Gabi Daniel Stancu, et al.. Kinetic mechanism and sub-ns measurements of the thermal spark in air. Plasma Sources Science and Technology, 2023, ⟨10.1088/1361-6595/acc9da⟩. ⟨hal-04061759v2⟩
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