Simulations of streamers in N$_{2}$:O$_{2}$ and N$_{2}$:CO$_{2}$ mixtures using highly accurate transport data

Streamers are growing filaments of weakly-ionized non-stationary plasma produced by an ionization front that moves through non-ionized matter. They can emerge in a wide variety of gases and pressures. Previous experiments and numerical simulations have shown that streamer properties such as velocity and diameter are remarkably insensitive to changes in gas composition. In our numerical simulations, we use a fluid model to compute the densities of charged particles, obeying drift-diffusion-reaction equations. Previously, we have used a constant, empirical value for the diffusion and mobility coefficients in these simulations. Using a multi term theory for solving the Boltzmann equation, we now have highly accurate transport data, which we have used to simulate streamers in N$_{2}$:O$_{2}$ and N$_{2}$:CO$_{2}$ mixtures to compare with our previous results. It is found that the simulated streamers are more sensitive to the transport data than they are to the gas composition.