Abstract
The electron temperatures and the electron energy distribution function in a helium afterglow, for pressures of 10-80 Torr and electron densities of ${10}^{11}$-${10}^{13}$ ${\mathrm{cm}}^{\ensuremath{-}3}$, are calculated by a technique which readily allows the determination of the relaxation processes controlling the energy input into the electron gas. Comparisons are made to existing experimental data. The energy-distribution-function evaluations show that careful consideration of this parameter must be made, for it can be extremely non-Maxwellian.
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