A model for the electron-vibration energy exchange in nitrogen based on a Landau-Teller-type rate equation is presented. Analytical expressions of relaxation times are derived for cutoff harmonic oscillator and Morse oscillator approximations, assuming that the relaxation proceeds by way of a continuous series of Boltzmann distributions over the vibrational states. Comparisons with the direct numerical integration of the master equation have shown that the use of a two-temperature relaxation time allows accurate modeling of the nitrogen vibrational energy relaxation rate for various conditions encountered in high-enthalpy flows with electron and vibrational temperatures up to 40,000 K
The thermo-chemical relaxation of nitrogen hypersonic flows behind strong shocks and in nozzle expan...
International audienceAn atmospheric pressure nitrogen/argon plasma flows at high velocity through a...
The Fokker-Planck (FP) approach for the description of vibrational kinetics is extended in order to ...
A model for the electron-vibration energy exchange in nitrogen based on a Landau-Teller-type rate eq...
International audienceThis work presents an examination of the validity of the simple linear Landau-...
International audienceIn this work, a state-to-state vibrational and electronic collisional model is...
A vibrational state-to-state kinetic model is developed and compared with recent measurements perfor...
International audienceA vibrational state-to-state kinetic model is developed and compared with rece...
The relaxation of the electron energy distribution function (edf) in vibrationally excited N2 post d...
Studies are described for an electron temperature model for hypersonic flow. The elec-tron temperatu...
International audienceFour different types of macroscopic models developed for the vibration-chemist...
Dissociation rates of molecular nitrogen in electrical discharges have been calculated by solving a ...
Abstract—In this paper, we present an investigation of the time-relaxation of the electron energy di...
The thermo-chemical relaxation of nitrogen hypersonic flows behind strong shocks and in nozzle expan...
International audienceAn atmospheric pressure nitrogen/argon plasma flows at high velocity through a...
The Fokker-Planck (FP) approach for the description of vibrational kinetics is extended in order to ...
A model for the electron-vibration energy exchange in nitrogen based on a Landau-Teller-type rate eq...
International audienceThis work presents an examination of the validity of the simple linear Landau-...
International audienceIn this work, a state-to-state vibrational and electronic collisional model is...
A vibrational state-to-state kinetic model is developed and compared with recent measurements perfor...
International audienceA vibrational state-to-state kinetic model is developed and compared with rece...
The relaxation of the electron energy distribution function (edf) in vibrationally excited N2 post d...
Studies are described for an electron temperature model for hypersonic flow. The elec-tron temperatu...
International audienceFour different types of macroscopic models developed for the vibration-chemist...
Dissociation rates of molecular nitrogen in electrical discharges have been calculated by solving a ...
Abstract—In this paper, we present an investigation of the time-relaxation of the electron energy di...
The thermo-chemical relaxation of nitrogen hypersonic flows behind strong shocks and in nozzle expan...
International audienceAn atmospheric pressure nitrogen/argon plasma flows at high velocity through a...
The Fokker-Planck (FP) approach for the description of vibrational kinetics is extended in order to ...