Breakdown development at high overvoltage: Electric field, electronic level excitation and electron density

N. B. Anikin; S. V. Pancheshnyi; S. M. Starikovskaia; A. Yu Starikovskii

doi:10.1088/0022-3727/31/7/012

Breakdown development at high overvoltage: Electric field, electronic level excitation and electron density

N. B. Anikin
, S. V. Pancheshnyi
, S. M. Starikovskaia
, A. Yu Starikovskii

Moscow Institute of Physics and Technology

Research output: Contribution to journal › Article › peer-review

Abstract

A detailed study of gas breakdown in the form of a fast ionization wave has been carried out. Measurements of charge distribution dynamics and the spectroscopic registration of N₂(C³Π_u, v′ = 0) and N⁺₂(B²∑;⁺_u, v′ = 0) excited levels have been performed simultaneously in air in the pressure range 0.1-16 Torr. A method to obtain the longitudinal component of the electric field in the ionization wave front and the electron density following it is proposed. This method includes charge dynamics registration, taking into account the space sensitivity function of the detector. The registration is coupled to a computational procedure of inverse problem solving to obtain the real charge distribution. An analysis of the electric field, electronic level excitation and electron concentration behaviour is presented.

Original language	English
Pages (from-to)	826-833
Number of pages	8
Journal	Journal of Physics D: Applied Physics
Volume	31
Issue number	7
DOIs	https://doi.org/10.1088/0022-3727/31/7/012
Publication status	Published - 7 Apr 1998
Externally published	Yes

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title = "Breakdown development at high overvoltage: Electric field, electronic level excitation and electron density",

abstract = "A detailed study of gas breakdown in the form of a fast ionization wave has been carried out. Measurements of charge distribution dynamics and the spectroscopic registration of N2(C3Πu, v′ = 0) and N+2(B2∑;+u, v′ = 0) excited levels have been performed simultaneously in air in the pressure range 0.1-16 Torr. A method to obtain the longitudinal component of the electric field in the ionization wave front and the electron density following it is proposed. This method includes charge dynamics registration, taking into account the space sensitivity function of the detector. The registration is coupled to a computational procedure of inverse problem solving to obtain the real charge distribution. An analysis of the electric field, electronic level excitation and electron concentration behaviour is presented.",

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year = "1998",

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T1 - Breakdown development at high overvoltage

T2 - Electric field, electronic level excitation and electron density

AU - Anikin, N. B.

AU - Pancheshnyi, S. V.

AU - Starikovskaia, S. M.

AU - Starikovskii, A. Yu

PY - 1998/4/7

Y1 - 1998/4/7

N2 - A detailed study of gas breakdown in the form of a fast ionization wave has been carried out. Measurements of charge distribution dynamics and the spectroscopic registration of N2(C3Πu, v′ = 0) and N+2(B2∑;+u, v′ = 0) excited levels have been performed simultaneously in air in the pressure range 0.1-16 Torr. A method to obtain the longitudinal component of the electric field in the ionization wave front and the electron density following it is proposed. This method includes charge dynamics registration, taking into account the space sensitivity function of the detector. The registration is coupled to a computational procedure of inverse problem solving to obtain the real charge distribution. An analysis of the electric field, electronic level excitation and electron concentration behaviour is presented.

AB - A detailed study of gas breakdown in the form of a fast ionization wave has been carried out. Measurements of charge distribution dynamics and the spectroscopic registration of N2(C3Πu, v′ = 0) and N+2(B2∑;+u, v′ = 0) excited levels have been performed simultaneously in air in the pressure range 0.1-16 Torr. A method to obtain the longitudinal component of the electric field in the ionization wave front and the electron density following it is proposed. This method includes charge dynamics registration, taking into account the space sensitivity function of the detector. The registration is coupled to a computational procedure of inverse problem solving to obtain the real charge distribution. An analysis of the electric field, electronic level excitation and electron concentration behaviour is presented.

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DO - 10.1088/0022-3727/31/7/012

M3 - Article

AN - SCOPUS:0032492531

SN - 0022-3727

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EP - 833

JO - Journal of Physics D: Applied Physics

JF - Journal of Physics D: Applied Physics

IS - 7

ER -

Breakdown development at high overvoltage: Electric field, electronic level excitation and electron density

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