Long-lived plasma and fast quenching of N<SUB>2</SUB>(C<SUP>3</SUP>P<SUB>u</SUB>) by electrons in the afterglow of a nanosecond capillary discharge in nitrogen - Archive ouverte HAL Accéder directement au contenu
Article Dans Une Revue Plasma Sources Science and Technology Année : 2016

Long-lived plasma and fast quenching of N2(C3Pu) by electrons in the afterglow of a nanosecond capillary discharge in nitrogen

N D Lepikhin
  • Fonction : Auteur
A.V. Klochko
  • Fonction : Auteur
N A Popov
  • Fonction : Auteur

Résumé

Quenching of electronically excited nitrogen state, ##IMG## [http://ej.iop.org/images/0963-0252/25/4/045003/psstaa2269ieqn003.gif] \textN_2≤ft(\textC^3Π_u,v^\prime=0\right) , in the afterglow of nanosecond capillary discharge in pure nitrogen is studied. It is found experimentally that an additional collisional mechanism appears and dominates at high specific deposited energies leading to the anomalously fast quenching of the ##IMG## [http://ej.iop.org/images/0963-0252/25/4/045003/psstaa2269ieqn004.gif] \textN_2≤ft(\textC^3Π_u\right) in the afterglow. On the basis of obtained experimental data and of the analysis of possible quenching agents, it is concluded that the anomalously fast deactivation of the ##IMG## [http://ej.iop.org/images/0963-0252/25/4/045003/psstaa2269ieqn005.gif] \textN_2≤ft(\textC^3Π_u\right) can be explained by quenching by electrons. Long-lived plasma at time scale of hundreds nanoseconds after the end of the pulse is observed. High electron densities, about 10 14 cm в€’3 at 27 mbar, are sustained by reactions of associative ionization. Kinetic 1D numerical modeling and comparison of calculated results with experimentally measured electric fields in the second high-voltage pulse 250 ns after the initial pulse, and electron density measurements in the afterglow confirm the validity of the suggested mechanism.
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Dates et versions

hal-01549349 , version 1 (28-06-2017)

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N D Lepikhin, A.V. Klochko, N A Popov, Svetlana Starikovskaia. Long-lived plasma and fast quenching of N2(C3Pu) by electrons in the afterglow of a nanosecond capillary discharge in nitrogen. Plasma Sources Science and Technology, 2016, 25 (4), pp.045003. ⟨10.1088/0963-0252/25/4/045003⟩. ⟨hal-01549349⟩
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