Publications

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2020
Ismail, M., A. Y. Ellithi, M. M. Selim, N. Abou-Samra, and O. A. Mohamedien, "Cluster decay half-lives and preformation probabilities", Physica Scripta, vol. 95, issue 7, 2020. AbstractWebsite
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Ismail, M., A. Y. Ellithi, M. M. Selim, N. Abou-Samra, and O. A. Mohamedien, "Semi-analytic calculations of barrier penetration and alpha particle preformation probabilities", Journal of Physics G: Nuclear and Particle Physics, vol. 47, issue 5, 2020. AbstractWebsite
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2017
Ismail, M., A. Y. Ellithi, A. El-Depsy, and O. A. Mohamedien, "Correlation between alpha preformation probability, decay half-life and barrier assault frequency", International Journal of Modern Physics EInternational Journal of Modern Physics E, vol. 26, issue 05: World Scientific Publishing Co., pp. 1750026, 2017. AbstractWebsite
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2016
Ismail, M., A. Y. Ellithi, A. El-Depsy, and O. A. Mohamedien, "A systematic calculation of alpha decay half-lives using a new approach for barrier penetration probability", International Journal of Modern Physics E, vol. 25, no. 9, 2016. AbstractWebsite
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2013
Ismail, M., A. Y. Ellithi, H. El-Gebaly, and A. A. Mohamed, "GEOMETRICAL FORMULAE FOR REACTION CROSS-SECTION BETWEEN DEFORMED-DEFORMED NUCLEI", International Journal of Physics and Research (IJPR), vol. 3, issue 3, pp. 41-60, 2013.
Ismail, M., A. Y. Ellithi, H. El-Gebaly, and A. A. Mohamed, "Orientation Dependence Of The Phase Shift Function For Deformed-Deformed Interacting Pairs", Australian Journal of Basic and Applied Sciences, vol. 7, issue 8, pp. 151-162, 2013.
Ismail, M., A. Y. Ellithi, H. El-Gebaly, and A. A. Mohamed, "STUDY OF SOME ASPECTS OF REACTION CROSS-SECTION BETWEEN DEFORMED NUCLEI", International Journal of Physics and Research (IJPR), vol. 3, issue 5, pp. 1-10, 2013.
2007
Ismail, M., A. Y. Ellithi, M. M. Botros, and A. E. Mellik, "Azimuthal angle dependence of Coulomb and nuclear interactions between two deformed nuclei", Physical Review C - Nuclear Physics, vol. 75, no. 6, 2007. AbstractWebsite

The azimuthal angle variation of the Coulomb and nuclear heavy ion (HI) potentials is studied in the framework of the double folding model, which is derived from realistic nuclear density distributions and a nucleon-nucleon (NN) interaction. The present calculation shows that the variation of HI potentials with the azimuthal angle depends strongly on the range of the NN forces. For the long-range Coulomb force, the maximum variation with is about 0.9%, and for HI potential derived from zero-range NN interaction the variation can reach up to 90.0%. Our calculations are compared with the recent dependence of the HI potential derived from proximity method. The present realistic dependence calculations of the HI potential is completely different from the results of the proximity calculations. © 2007 The American Physical Society.