Dr. Mohammed Tayeb Meftah
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Dr. Mohammed Tayeb Meftah

Professor
Department of Materials Science, Université Kasdi Merbah Ouargla, Ouargla, Algeria

Highest Degree
Ph.D. in Physics from Aix-Marseille Universite, France

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Area of Interest:

Physics
100%
Mathematical Physics
62%
Modern Physics
90%
Plasma Physics
75%
Applied Physics
55%

Research Publications in Numbers

Books
0
Chapters
0
Articles
87
Abstracts
1

Selected Publications

  1. Ababsa, H., M.T. Meftah and T. Chohra, 2017. Two and three-particles spatial correlation in weak coupling plasma and applications. Phys. Chem. Liquids. 10.1080/00319104.2017.1301449.
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  2. Ababsa, H., M.T. Meftah and T. Chohra, 2017. Dynamical and transport properties in plasmas including three-particle spatial correlations. J. Theor. Applied Phys., 11: 63-70.
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  3. Dahbi, L. and M.T. Meftah, 2016. Mayer's formula for black hole thermodynamics in constant magnetic field. Br. J. Math. Comput. Sci., 19: 10-20.
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  4. Hannachi, I., M. Meireni, H. Capes, F. Guzman and M. Koubiti et al., 2014. Effects of strong langmuir turbulence on hydrogen lines. J. Phys.: Conf. Ser. Vol. 548. .
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  5. Douis, S. and M.T. Meftah, 2013. Relativistic effects of the electrons in plasma: Correlation function and electronic line broadening. Afr. Rev. Phys., 8: 17-28.
  6. Douis, S. and M.T. Meftah, 2013. Correlation function and electronic spectral line broadening in relativistic plasmas. Serbian Astronomical J., 186: 15-23.
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  7. Babahani, O., F. Khelfaoui and M.T. Meftah, 2013. Analytical calculation of site and surface reaction probabilities of SiHx radicals in PECVD process. Eur. Phys. J. Applied Phys., Vol. 62. 10.1051/epjap/2013120345.
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  8. Touati, K.T.A. and M.T. Meftah, 2012. Line shapes in the magnetized plasmas. J. Mod. Phys., 3: 943-946.
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  9. Guerricha, S., S. Chihi and M.T. Meftah, 2012. Distribution function of spatial derivative of the ion electric microfield using the independent particles model in plasmas. Contributions Plasma Phys., 52: 776-783.
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  10. Difallah, M., M.T. Meftah, A. Bekkouche and N. Bedida, 2012. The adiabatic effect of an oscillating electric field on the spectral line shape in a plasma. J. Quantitative Spectroscopy Radiative Transfer, 113: 299-305.
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  11. Difallah, M., M.T. Meftah and N. Bedida, 2012. Berry phase in the theory of radiation in plasmas. Phys. Scripta, Vol. 85. .
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  12. Bedida, N. and M.T. Meftah, 2012. Path integral formulation for ionic broadening in plasmas: Lyman-α with fine structure and dynamical effects. J. Mod. Phys., 3: 1678-1682.
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  13. Chenini, K., F. Khelfaoui, S. Guerricha, S. Chihi, A. Ouahhab and M.T. Meftah, 2011. Contribution to calculation of ion microfield nonuniformity effect on the asymmetry of lyman‐α line in dense plasma. Contributions Plasma Phys., 51: 34-43.
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  14. Chohra, T., K. Chenini, M.T. Meftah and A. Boukraa, 2009. Model of dynamical correlation in two-ionic strong coupling plasmas. Acta Phys. Polonica A, 116: 193-196.
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  15. Boudjedaa, B., M.T. Meftah and L. Chetouani, 2007. Green function of the morse potential using perturbation series. Turk. J. Phys., 31: 197-203.
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  16. Acila, M., B. Benali and M.T. Meftah, 2006. The green function of step potential via an exact summation of the perturbation series. J. Phys. A: Math. Gen., 39: 1357-1366. J. Phys. A: Math. Gen., 39: 1357-1366.
  17. Bouguettaia, H., I. Chihi, K. Chenini, M.T. Meftah, F. Khelfaoui and R. Stamm, 2005. Application of path integral formalism in spectral line broadening: Lyman-α in hydrogenic plasma. J. Quantitative Spectroscopy Radiative Transfer, 94: 335-346.
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  18. Meftah, M.T., T. Chohra, H. Bouguettaia, F. Khelfaoui, B. Talin, A. Calisti and J.W. Dufty, 2004. Electric field dynamics in two plasma component. Eur. Phys. J. B, 37: 39-46.
  19. Chihi, I., M.T. Meftah and H. Kleinert, 2004. Path integral approach in the plasma radiation theory. J. Plasma Phys., 70: 553-559.
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  20. Talin, B., A. Calisti, S. Ferri, M. Koubiti and T. Meftah et al., 1997. Ground work supporting the codes based upon the frequency fluctuation model. J. Quantitative Spectroscopy Radiative Transfer, 58: 953-964.
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  21. Calisti, A., L. Godbert, T. Meftah, C. Mosse, R. Stamm and B. Talin, 1994. Model for the Stark broadening of plasmas created by laser interaction with matter. Laser Particle Beams, 12: 407-411.
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