Your search keyword '"Hassouba M"' showing total 2 results

1. Analysis of cylindrical Langmuir probe using experiment and different theories.

Author

Hassouba, M., Galaly, A., and Rashed, U.

Subjects

*LANGMUIR probes, *PHYSICS experiments, *DATA analysis, *PLASMA physics, *ELECTRON temperature, *ARGON, *NUMERICAL calculations

Abstract

Cylindrical probe data have been analyzed using different theories in order to determine some plasma parameters (electron temperature and electron and ion densities). Langmuir probe data are obtained in a cylindrical DC glow discharge in the positive column plasma at argon gas pressures varied from 0.5 to 6 Torr and at constant discharge current equal to 10 mA. The electron density has calculated from the electron current at the space potential and from Orbital Motion Limited (OML) collisionless theory. Ion density has obtained from the OML analysis of the ion saturation currents. In addition, the electron temperature has measured by three different methods using probe and electrons currents. The electron temperature T, plasma density n, and space potential V, have been obtained from the measured single cylindrical probe I-V characteristic curves. The radial distribution of the electron temperature and plasma density along the glow discharge are measured and discussed. Using the collisionless theories by Langmuir cylindrical probe and up to several Torr argon gas pressures the differences between the values of electron temperature and electron and ion densities stay within reasonable error limits. [ABSTRACT FROM AUTHOR]

Published

2013

2. Effect of hydrogen ratio on plasma parameters of N-H gas mixture glow discharge.

Author

El-Brulsy, R., Abd Al-Halim, M., Abu-Hashem, A., Rashed, U., and Hassouba, M.

Subjects

GAS mixtures, GLOW discharges, SPECTRAL energy distribution, LANGMUIR probes, PLASMA density, ELECTRON temperature, HYDROGEN

Abstract

A dc plane glow discharge in a nitrogen-hydrogen (N-H) gas mixture has been operated at discharge currents of 10 and 20 mA. The electron energy distribution function (EEDF) at different hydrogen concentrations is measured. A Maxwellian EEDF is found in the positive column region, while in both cathode fall and negative glow regions, a non-Maxwellian one is observed. Langmuir electric probes are used at different axial positions, gas pressures, and hydrogen concentrations to measure the electron temperature and plasma density. The electron temperature is found to increase with increasing H concentration and decrease with increasing both the axial distance from the cathode and the mixture pressure. At first, with increasing distance from the cathode, the ion density decreases, while the electron density increases; then, as the anode is further approached, they remain nearly constant. At different H concentrations, the electron and ion densities decrease with increasing the mixture pressure. Both the electron and ion densities slightly decrease with increasing H concentration. [ABSTRACT FROM AUTHOR]

Published

2012