Thesis

        This thesis was including study the effect of different concentration (X=0.1,0.2,0.3,and 0.4), thickness, t (200-500)nm ,and substrate temperature ,T (300-393)K on the structural and electrical properties for CdXSe1-Xs  thin films ,which prepared by thermal evaporation on glass substrate under vacuum of (2 2 ×10 -5 mbar), and studying the mechanism of transition  for the d.c conductivity and a.c conductivity.

         A theoretical and computational investigation was carried out in the field of laser-plasma interaction using the Finite Difference Method to study the acceleration of electrons with non-relativistic elocities in a non-magnetized and magnetized collisionless plasmas.First, a (Nd:YAG) laser pulse of  25 fs duration and 5x10  intensity was assumed in the present study.When this laser pulse was allowed to nteract with a stationary electron in vacuum, it was found that the electron is accelerated during the interaction only and returns to stationary state af

The aim of this research is simulate an optical system for the human eye using Genetic algorithm. The considered optical characteristics of the optical system simulator include spot size (Z), spot diagram, and effective focal length (EFL). These characteristics are determined with the aid of some mathematical relations, which give the efficiency and accuracy of the adopted optical system design. The work has been performed in two stages:  

      The calculation of the value of stopping power and the range for the proton is done by two ways : first, using Bethe-Bloch formula and second, using Bragg-Kleeman rule. The differences between the experimental and theoretical values of stopping power and range required studying  the corrections for Bethe-Bloch formula which are represented by the maximum energy and density correction and then comparing the results with experimental values.