A Dusty Plasma in a Non-Self-Sustained Gas Discharge at Atmospheric Pressure

A non‐self‐sustained (NSS) discharge at atmospheric gas pressure containing dust particles is studied. The NSS discharge was controlled by a stationary electron beam with energy up to 120 keV. A numerical model of the NSS discharge is based on the drift‐diffusion approach for electrons and ions and...

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Bibliographic Details
Published in:Contributions to plasma physics (1988) 2016-04, Vol.56 (3-4), p.286-295
Main Authors: Fiippov, A. V., Babichev, V. N., Pal', A. F., Starostin, A. N., Cherkovets, V. E.
Format: Article
Language:English
Subjects:
Atmospherics
Cathodes
Discharge
Dust
Dusty plasma
dusty structures
Electric potential
electron beam
Mathematical analysis
Mathematical models
nonideality
numerical simulation
Sheaths
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Summary:A non‐self‐sustained (NSS) discharge at atmospheric gas pressure containing dust particles is studied. The NSS discharge was controlled by a stationary electron beam with energy up to 120 keV. A numerical model of the NSS discharge is based on the drift‐diffusion approach for electrons and ions and self‐consistently takes into account effects of the dust particles on the electron and ion densities. The dusty component is described by the number balance equation and the equation of motion for dust particles with allowance for the Stokes force, gravity force and electric force in the cathode sheath. Interaction between dust particles is described in the self‐consistent field approximation. It is established that, at a given gas ionization rate and given applied voltage, there is a critical dust particle size above which the levitation condition in the cathode sheath cannot be satisfied. (© 2016 WILEY‐VCH Verlag GmbH & Co. KGaA, Weinheim)
ISSN:0863-1042
1521-3986
DOI:10.1002/ctpp.201500107