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Aziz, R. O. A. A., OPTIMIZATION of MTR reactor core fuel loading for isotope production, , Cairo- Giza, Cairo University, 2014.
AZIZ, R. A. N. I. O. S. A. M. A. A., E. H. AMIN, and H. Abou-Shady, "THE IMPACT OF GRAPHITE REFLECTOR MODIFICATION ON NEUTRONIC PARAMETERS OF A TYPICAL MTR TYPE RESEARCH REACTOR", Asian Academic Research Journal of Multidisciplinary, vol. 1, issue 26, pp. 91-108, 2014. AbstractWebsite

Abstract
Neutronic analysis of a typical swimming pool type research reactor, Pakistan research
Reactor-1 (PARR-1), was carried out for determine the effect of graphite reflector
configuration modification as a way to optimize the neutron flux in the irradiation positions.
Standard computer codes WIMSD and CITVAP were employed to calculate core excess
reactivity, neutron fluxes, power distribution, and burn-up distribution. A comparison
between four different core configurations is presented in this article.

galal Amin, D., Biophysical studies of melanin nano particles as radioprotectors, , Cairo, Cairo University, 2014.
Amin, D. G., M. M. Rageh, R. H. El-Gebaly, and H. Abou-Shady, "Melanin Nanoparticles (MNPs) provide protection against whole-body ɣ-irradiation in mice via restoration of hematopoietic tissues", Molecular and Cellular Biochemistry, vol. 396, issue 554, 2014. AbstractWebsite

During radiotherapy, ionizing irradiation interacts with biological systems to produce free radicals, which attack various cellular components. The hematopoietic system is easily recognized to be radiosensitive and its damage may be severe. Melanin nanoparticles (MNPs) act as free radical scavengers prepared by polymerization of dopamine. In this study, a total of 110 male BALB/C mice were divided into five equal groups. Each group contained 22 mice. Mice of group A did not receive MNPs or irradiation (control group), group B was injected intraperitoneally (i.p.) with 50 mg/kg MNPs. Mice of group C and D were exposed to a dose of 7 Gy ɣ-irradiation and injected with the same dose of MNPs as in group B either 30 min pre- or post-irradiation, and group E was exposed to a dose of 7 Gy ɣ-irradiation only. The impact of MNPs on peripheral blood, spleen, and DNA damage induced by irradiation was evaluated by blood count, histopathology of the spleen, and comet assay for the DNA in the bone marrow at 1, 4, 8, and 12 days post-irradiation. Results of group E compared with control group (A) showed a significant depression in complete blood count. Additionally, histopathological observation showed the absence of megakaryocytes with delayed time post-irradiation, deposition of eosinophilic protein of their spleen appeared, as well as a remarkable decrease in spleen size was observed. Moreover, ɣ-irradiation-induced DNA damage as can be inferred from a significant increase by about 5–10 folds in all comet parameters (% of DNA, tail length, tail moment, and olive moment) in the DNA of the bone marrow. In contrast, pre-post treatment with MNPs protected hematopoietic tissues against radiation damage, and therefore, enhanced the survival of mice with 40 % in groups (C&D) compared with 10 % to group (E) till 30 days post-irradiation. In conclusion, these results demonstrated that synthetic MNPs provide significant radioprotection to the hematopoietic tissues.

Amin, D. G., M. M. Rageh, R. H. El-Gebaly, and H. Abou-Shady, "Effect of Melanin nanoparticles (MNPs) on radiation-induced cytotoxicity in Chinese hamster ovary cells", Egyptian journal of Biophysics, vol. 18, issue 1, pp. 10, 2013. effect_of_melanin_nanoparticles_mnps_on_radiation-induced_cytotoxicity.pdf
ALAZIZ, A. B. D. R. O., A. A. ESMAT, and H. Abou-Shady, "OPTIMIZATION OF MATERIAL TEST RESEARCH REACTOR CORE FOR ISOTOPE PRODUCTION", Research Reactors: Safe Management and Effective Utilization, Morocco, iaea, pp. 1-3, 2011. Abstract

In this paper Neutronic calculation (deterministic approach) has been carried out to characterize the neutron flux in
locations used for isotope production to achieve optimum utilization of the reactor. In neutronic calculations a number of
approximations take place. As a result even if one uses the same codes the results might be different. It is thus of importance
to care about the model used. Comparison between different model and with published experimental results has been done. In
this work three deferent model of the standard fuel has been tested to determine the accurate one, then it used for core
calculation. Calculation of reactivities at deferent cycles, calculation of power densities, neutron flux, and burn-up as well as
search for equilibrium were performed to determine the equilibrium core. Standard computer codes WIMSD-5B and
CITVAP were used.

Abou-Shady, H., "Calculation of the reaction cross section of the C12+N17 using relativistic heavy ion potential", Egyptian Journal of Physics, vol. 25, issue 3, pp. 399-408, 2004. Abstract

A relativistic version of the two colliding nuclear matter approach together with the eikonal approximation are used to calculate the reaction cross-section σr for the spherically deformed pair C12-N17. Both the energy and the orientation dependence of the σr are studied. A maximum variation of 13% was found in σr due to all possible orientations of the deformed nucleus.

Abou-Shady, H., M. Y. Ismail, F.Salah, and A. Elleithi, "Accuracy of Wong's formula in calculating the fusion cross section and the barrier distribution for deformed nuclei", Egyptian Journal of Physics, vol. 33, issue 3, pp. 503 - 512, 2002. AbstractWebsite

The fusion cross section and the barrier distribution for deformed spherical pair are calculated by the WKB approximation, and it is compared with the results of Wong's formula. We found that the latter is a very good approximation to the more complicated WKB one, starting from energy less by 5% than the lowest fusion barrier height occurring at orientation angle of the deformed target nucleus B=0.

Abou-Shady, H. M., O. W. Guirguis, W. M. Morsi, and S. A. Elawam, "Characterizations of Beta-lead Oxide “Massicot” Nano-particles", British Journal of Applied Science & Technology, vol. 17, issue 1, pp. 10, 2016.
Abou-Shady, H., Application of the Eikonal Expansion and Glauber theory to the nuclear reactions, , Cairo- Giza, Cairo University, 1997.
Abou-Shady, H., "ما الكون", ما الكون, القاهرة, المجلس الاعلي للثقافة, 2006.
Abdel‐Rahman, M. A. E., H. A. Shady, and S. A. El‐Mongy, " Analysis of Ores and its Purified Constituents by γ‐Spectrometry with Calculation of Uranium Isotopic Atom, Mass and Activity Ratios", Zeitschrift für Anorganische und Allgemeine Chemie, vol. 664, issue 7, pp. 9, 2018. analysis_of_ores_and_its_purified_constituents_by_.pdf
A.Aziz, R. O., Optimization of Material Test Research Reactors for Isotope Production, , Giza, Cairo university, 2015.