EXPERIMENTAL AND THEORETICAL-STUDY OF THE CF-4 DC GLOW-DISCHARGE POSITIVE-COLUMN

An experimental and theoretical study of the positive column of the CF 4 DC glow discharge is presented. It includes the experimental determi nation of the reduced electric field E(z)/N and the electron impact ex citation rate constant k(Ar) of the line (lambda = 750.3 nm, epsilon(t h) = 13.5 eV) of the actinometric addition (Ar) in CF4 plasma for a wi de range of parameters (pressure p = 0.2-2.3 Torr, current density j = 4-35 mA cm-2). All experimental values of the reduced electric field can be described within the limits of experimental error by the univer sal dependence E(z)/N on r0N (r0 = 0.9 cm, the discharge tube radius). Also the experimental dependence d k(Ar) on E(z)/N has been obtained. These results have been used to test different theoretical models of the CF4 discharge positive column. Comparison of the experimental and calculated values of E(z)/N and k(Ar) has shown the validity of the th eoretical model developed in this work. This model takes into account the large negative ion concentration in the positive column and predic ts its division into regions d ion-ion plasma (in the centre) and elec tron-ion plasma (near the tube wall). The model also accounts for the effect of non-locality of the electron energy distribution function. I t has been shown that this effect can be accounted for by solving the Boltzmann equation for the EEDF in the spatially non-uniform case. The incorrectness of the notion of ambipolar diffusion in the plasma of a strongly electronegative gas with high negative ion concentrations ha s been reaffirmed.