DocumentCode :
917066
Title :
Influence of diffusion and nonequilibrium populations on noble-gas plasmas in electric arcs
Author :
Uhlenbusch, Jurgen F. ; Fischer, Ernst
Author_Institution :
Technical University, Aachen, Germany
Volume :
59
Issue :
4
fYear :
1971
fDate :
4/1/1971 12:00:00 AM
Firstpage :
578
Lastpage :
587
Abstract :
Measurements and calculations of temperatures, densities, and field-strength-current characteristics of cascade arcs burning in noble gases under atmospheric pressure are reported. The evaluation of measured arc data assuming Saha equilibrium [complete local thermal equilibrium (LTE)] is not in agreement with the detailed solution of the balance equations. The temperatures of electrons and heavy particles and the density of electrons and neutrals have to be determined from the set of rate equations, from the equation of state, connection with the electron energy balance and the equation of state, the energy balance of the electron gas, and of the total plasma. Solutions of these equations are compared with results following from measured line intensities only solving the rate equations in connection with the electron energy balance and the equation of state. For helium, both methods give results which agree within a few percent. The deviations from Saha equilibrium are caused by diffusion and the overpopulation of ground state atoms. The excited atoms, however, are nearly in equilibrium with free electrons in the range of electron densities reached in our experiment (partial LTE). Measurements of E-I characteristics agree with calculated data, if diffusion is taken into account. A simple criterion for the limit between diffusion-dominated plasma and a plasma in thermal equilibrium is derived.
Keywords :
Atmospheric measurements; Atmospheric-pressure plasmas; Atomic measurements; Density measurement; Electrons; Equations; Plasma density; Plasma measurements; Plasma properties; Plasma temperature;
fLanguage :
English
Journal_Title :
Proceedings of the IEEE
Publisher :
ieee
ISSN :
0018-9219
Type :
jour
DOI :
10.1109/PROC.1971.8218
Filename :
1450148
Link To Document :
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