Electron energy distribution functions in molecular nitrogen: The role of superelastic electronic collisions in discharge and postdischarge conditions

15 June 1986

journal article
Published by AIP Publishing in Journal of Applied Physics

Vol. 59 (12) , 4004-4006
https://doi.org/10.1063/1.337020

Abstract

Electron energy distribution functions (EDF) and related quantities in N2 discharge and postdischarge conditions have been calculated by solving the Boltzmann equation, taking into account both superelastic vibrational (SVC) and electronic (SEC) collisions. These last collisions involve N2(A3Σ+u) and N2(B3Πg) states. The results show a large influence of SEC on EDF at low reduced electric fields (E/N<5×10−16 V cm2), the effects being more evident in the absence of SVC and in the postdischarge regime (E/N=0).

This publication has 7 references indexed in Scilit:

Electron energy distribution functions in carbon monoxide discharge and post-discharge conditions: The role of superelastic electronic collisions from CO(A3Π) state
Journal of Applied Physics, 1986
Anisotropic scattering of electrons by $N_{2}$ and its effect on electron transport
Physical Review A, 1985
Vibrational populations of N₂(A³Σ_u⁺) in a pure nitrogen glow discharge
Journal of Physics B: Atomic and Molecular Physics, 1984
Non-equilibrium dissociation and ionization of nitrogen in electrical discharges: The role of electronic collisions from vibrationally excited molecules
Chemical Physics, 1982
Coupled solutions of the collosional Boltzmann equations for electrons and the heavy particle master equation in nitrogen
Chemical Physics, 1981
Erratum to: An analysis on the electron motion in the laser mixture CO2-N2-He-CO
Lettere al Nuovo Cimento (1971-1985), 1979
Electron Energy Distributions and Collision Rates in Electrically Excited $N_{2}$ , CO, and C $O_{2}$
Physical Review A, 1970