A global discretization approach was taken to solve a self- consistent DC glow discharge model to study the interplay between modeling assumptions and convergence of the numerical solution techniques. It was found that the assumed form of electron diffusivity temperature dependence had a profound influence on the computed solutions. The numerical techniques developed offer a simple to implement alternative for plasma model discretization
Modelling of a DC glow discharge in a wide current range is performed by means of a steady-state sol...
A nonlinear model has been introduced for the positive column of DC glow discharge in apure sealed, ...
The work is aimed at advancing the multiple steady-state solutions that have been found recently in ...
A model for an abnormal glow discharge, including a self‐consistent analysis of the cathode fall, wa...
In this paper, we report on numerical solutions and model reduction results for a plasma glow discha...
Computer modeling (simulation) of rf glow discharges is a very useful and potentially accurate tool ...
The objective of the work presented in this paper is to develop a numerical calculation prog...
We developed and tested 2D "extended fluid model" of a dc glow discharge using COMSOL MULTIPHYSICS s...
Two-dimensional hybrid Monte Carlo-fluid numerical code is developed and applied to model the dc glo...
A numerical model of a low pressure parallel plate rf glow discharge is presented based on a self-co...
Multiple steady-state solutions existing in the theory of dc glow discharges are computed for the f...
This paper concerns computational modelling of the low-temperature glow discharge plasma in the atmo...
We developed and tested two dimensional (axial-symmetric) models of a dc glow discharge in low press...
Atmospheric pressure glow discharges are attractive for a wide range of material-processing applicat...
Fluid models have successfully explained the physics of a variety of plasmas. To solve the fluid mod...
Modelling of a DC glow discharge in a wide current range is performed by means of a steady-state sol...
A nonlinear model has been introduced for the positive column of DC glow discharge in apure sealed, ...
The work is aimed at advancing the multiple steady-state solutions that have been found recently in ...
A model for an abnormal glow discharge, including a self‐consistent analysis of the cathode fall, wa...
In this paper, we report on numerical solutions and model reduction results for a plasma glow discha...
Computer modeling (simulation) of rf glow discharges is a very useful and potentially accurate tool ...
The objective of the work presented in this paper is to develop a numerical calculation prog...
We developed and tested 2D "extended fluid model" of a dc glow discharge using COMSOL MULTIPHYSICS s...
Two-dimensional hybrid Monte Carlo-fluid numerical code is developed and applied to model the dc glo...
A numerical model of a low pressure parallel plate rf glow discharge is presented based on a self-co...
Multiple steady-state solutions existing in the theory of dc glow discharges are computed for the f...
This paper concerns computational modelling of the low-temperature glow discharge plasma in the atmo...
We developed and tested two dimensional (axial-symmetric) models of a dc glow discharge in low press...
Atmospheric pressure glow discharges are attractive for a wide range of material-processing applicat...
Fluid models have successfully explained the physics of a variety of plasmas. To solve the fluid mod...
Modelling of a DC glow discharge in a wide current range is performed by means of a steady-state sol...
A nonlinear model has been introduced for the positive column of DC glow discharge in apure sealed, ...
The work is aimed at advancing the multiple steady-state solutions that have been found recently in ...
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