Abstract
Absorption spectroscopy is used to map the absolute density of excited Ar atoms and ground-state ions in the negative glow of a hot cathode Hg-Ar discharge. The experimental map of the density of excited Ar atoms is compared to, and found to agree with, a Monte Carlo simulation of the resonance-atom density from radiation trapping. The primary production rate per unit volume of excited Ar atoms in the simulation is sharply peaked near the cathode hot spot. The experimental map of the density of ground-state ions is compared to, and found to agree with, a simulation based on an ambipolar-diffusion model. The production rate per unit volume of in this second simulation is entirely due to Penning ionization of Hg by the excited Ar atoms. Penning ionization is found to be an important, possibly the dominant, ionization mechanism in the negative glow.
- Received 24 November 1992
DOI:https://doi.org/10.1103/PhysRevE.47.3540
©1993 American Physical Society