Critical Hall parameter (weakly ionized gas)
The electrothermal instability (also known as the ionization instability) is a magnetohydrodynamic (MHD) instability appearing in magnetized non-thermal plasmas used in MHD converters. This instability is a turbulence of the electron gas in a non-equilibrium plasma (i.e. where the electron temperature Te is greatly higher than the overall gas temperature Tg). It arises when a magnetic field powerful enough is applied in such a plasma, reaching a critical Hall parameter βcr.
The critical Hall parameter βcr greatly varies according to the degree of ionization α :α = n_i/n_n
where ni is the ion density and nn the neutral density (in particles per cubic metre).
The electron-ion collision frequency νei is much greater than the electron-neutral collision frequency νen.
Therefore with a weak energy degree of ionization α, the electron-ion collision frequency νei can equal the electron-neutral collision frequency νen.
This formula calculates the Critical Hall parameter for a weakly ionized gas (non-Coulombian plasma, when νei < νen) when combined with the formula :
“'s’ parameter for the Critical Hall parameter”
|βcr||Critical Hall parameter (weakly ionized gas) (dimensionless)|
|s||'s' parameter (see formula : "'s' parameter for the Critical Hall parameter") (dimensionless)|