Recombination, ionization, and nonequilibrium electrical conductivity in seeded plasmas

摘要

New data are presented which provide direct experimental confirmation of the validity of a physical model which has been widely employed to predict the electrical conductivity of dense, two-temperature, seeded plasmas. Experimental measurements of electron temperature, and ionization and recombination rates are presented for partially ionized plasmas of potassium-seeded argon. Experimentaludconditions were chosen to cover those ranges of interest in connection with proposed magnetohydrodynamic energy conversion devices for which nonequilibrium electrical conductivity measurements have been previously reported, e.g., translational atom temperatures of about 2000°K, total atom densities near 10^(18)/cm^3, potassium densities of about 10^(16)/cm^3, electron densities from 10^(13)/cm^3 to 10^(15)/cm^3, and electron temperatures from 2200 to 3500°K. Measured values of electron-electron-ionudrecombination coefficients for potassium show good agreement with theoretical values based upon theudGryzinski classical inelastic-collision cross-section expressions. Observed ionization rates and relaxationudcharacteristics appear to be adequately explained by a similar formulation for the ionization process.