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A paraxial model for the growth of an externally maintained discharge influenced by its own magnetic field

A paraxial model for the growth of an externally maintained discharge influenced by its own... The quantity Yint<~. 1.5 exp (--I/(� 2/~))//~. For small values of z K the volt-ampere characteristics depend weakly on =he behavior of the solution of the problem (1.12)-(1,16) in the interval (ZK, --ZK). An analogous conclusion, based on the results of numerical calcula- tions, was drawn in [6]. in real lasers the neutral gas is in motion. As a result of this, there is a convective removal of the Joule heat and a viscous boundary layer is formed in the regions near the elec- trodes. The density of the gas can no longer be considered constant. This means that the calculation of the parameters of the flow in the electric field must be carried out on the basis of a simultaneous solution of the gasdynamics equations and the system (I.i) (with the pressure p replaced by the density p(x)). This study may be regarded as one of the steps aimed at the investigation of the proper- ties of system (i.i) with variable density and the calculatlon of the electrical discharge in real electroionizatlon lasers. LITERATURE CITED N. G. Basov, ~. M. Belenov, V. A. Danilychev, and A. F. Suchkov, "Electroionizatlon l. lasers using compressed carbon dioxide," Usp. Fiz. Nauk, http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Journal of Applied Mechanics and Technical Physics Springer Journals

A paraxial model for the growth of an externally maintained discharge influenced by its own magnetic field

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References (6)

Publisher
Springer Journals
Copyright
Copyright
Subject
Physics; Classical Mechanics; Fluid- and Aerodynamics; Classical and Continuum Physics; Applications of Mathematics; Mathematical Modeling and Industrial Mathematics; Mechanical Engineering
ISSN
0021-8944
eISSN
1573-8620
DOI
10.1007/BF00911569
Publisher site
See Article on Publisher Site

Abstract

The quantity Yint<~. 1.5 exp (--I/(� 2/~))//~. For small values of z K the volt-ampere characteristics depend weakly on =he behavior of the solution of the problem (1.12)-(1,16) in the interval (ZK, --ZK). An analogous conclusion, based on the results of numerical calcula- tions, was drawn in [6]. in real lasers the neutral gas is in motion. As a result of this, there is a convective removal of the Joule heat and a viscous boundary layer is formed in the regions near the elec- trodes. The density of the gas can no longer be considered constant. This means that the calculation of the parameters of the flow in the electric field must be carried out on the basis of a simultaneous solution of the gasdynamics equations and the system (I.i) (with the pressure p replaced by the density p(x)). This study may be regarded as one of the steps aimed at the investigation of the proper- ties of system (i.i) with variable density and the calculatlon of the electrical discharge in real electroionizatlon lasers. LITERATURE CITED N. G. Basov, ~. M. Belenov, V. A. Danilychev, and A. F. Suchkov, "Electroionizatlon l. lasers using compressed carbon dioxide," Usp. Fiz. Nauk,

Journal

Journal of Applied Mechanics and Technical PhysicsSpringer Journals

Published: Dec 15, 2004

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