Abstract
A theoretical model describing time-dependent cataphoretic gas separation in a direct-current glow discharge with end volumes present is formulated for a binary gas mixture. It is shown how this theoretical model differs from the previous model developed by Shair and Remer. Computed results of the axial impurity density profile for three different end volume configurations based on the new model are presented and discussed. The results indicate that optimum cataphoretic gas separation is attained for large cathode to anode end volume ratios.
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