Highly Ionized Arc He Plasma: Nonequilibrium, Nonideality, and Kinetics

Experimental findings suggest that a strongly ionized, arc He plasma of atmospheric pressure does not exist in the state of the local thermodynamic equilibrium (LTE) expected for a plasma with an electron concentration above 10 16 cm –3 . This is found to be caused by transverse plasma nonuniformity...

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Bibliographic Details
Published in:High temperature 2019-03, Vol.57 (2), p.147-155
Main Authors: Korshunov, O. V., Chinnov, V. F., Kavyrshin, D. I.
Format: Article
Language:English
Subjects:
Alpha particles
Alpha rays
Ambipolar diffusion
Atoms and Molecules in Strong Fields
Charged particles
Classical and Continuum Physics
Diffusion
Equilibrium conditions
Industrial Chemistry/Chemical Engineering
Ions
Laser Matter Interaction
Local thermodynamic equilibrium
Materials Science
Mathematical models
Nonuniformity
Parameter modification
Physical Chemistry
Physics
Physics and Astronomy
Plasma
Plasma Investigations
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Summary:Experimental findings suggest that a strongly ionized, arc He plasma of atmospheric pressure does not exist in the state of the local thermodynamic equilibrium (LTE) expected for a plasma with an electron concentration above 10 16 cm –3 . This is found to be caused by transverse plasma nonuniformity and density effects. The plasma quasistatic microfield destroys the upper electron levels of He atoms, and the radial ambipolar diffusion flow transports the charged particles from the narrow (1–2 mm) plasma channel on the chamber wall. In the distribution of atoms and the ions over the excited levels, strong ionization nonequilibrium and a large gap of the ground state are observed; these factors cause substantial difficulties in the spectral diagnostics of the plasma parameters due to the inapplicability of the relations taking into account the equilibrium conditions. A method is proposed to measure the concentration of double-charged ions He ++ (α particle), which is inaccessible by direct spectral registration, as well as a simple kinetic model of strongly ionized He plasma with the use of a modified diffusion approximation; the model adequately describes the plasma parameters.
ISSN:0018-151X
1608-3156
DOI:10.1134/S0018151X18060147