Thesis
INVESTIGATION OF THEOPTICAL PROPERTIES OF THE ACHROMATIC QUADRUPOLE LENS
The optimization calculations are made to find the optimum properties of combined quadrupole lens which consists of electrostatic and magnetic lens. The optical properties are computed, where both the focal length and the magnification are determined. Both chromatic and spherical aberration coefficients are reduced to minimum values and the achromatic aberration are found for many cases.This calculation are achieved with the aid of transfer matrices method and using both rectangular and bell-shaped models of field distribution, where the path of charged
DYNAMIC NAVIGATOR FOR UAV
The present project aims to the analyses and model the auto-navigation process. Putting mathematical model for aeroplane autonavigation requires an understanding to the aeroplane mobility in atmosphere,
Determination Of The Most Favorable Shapes For The Electrostatic Quadrupole Lens
By using transfer matrices method a computation has been carried out on the axial field distribution and the optical properties of the electrostatic quadrupole lens of different electrode shapes such as, cylindrical convex and spherical electrodes.The path of charged–particles beam traversing the field model has been determined by solving the trajectory equation of motion in Cartesian coordinates. The optical properties of the electrostatic quadrupole lens have been computed with the aid of the beam trajectory along the lens axis. Optimization
Uranium Concentration Measurements of Human Blood Samples Using CR-39
The aim of this project is to determine the concentrations of uranium concentration in human blood in some governorates of Iraq for (workers in radiation field in ministry of science and technology and non occupational workers in radiation field) and to find the relationship between the uranium concentration with the number of working years and with the type of human gender.The nuclear reaction used as source of nuclear fission fragment is U-235 (n,f), obtain by the bombardment of U-235 with thermal neutrons from (Am- Be) source which has a flux o
Preparation of Anorthite from Local Raw Iraqi Materials
The study concern with using local Kaolin of Duekhla to prepare Anorthite material. The sequence of study started with washing, chemical treatment and sedimentation to produce a fine powder by passing the product through a special sieve (less than 20 µm).then after this step dividing the fine powder product into two groups, the first group with out heat treatment and the second with heat treatment (calcinations) at 400 oC.
BANDWIDTH IMPROVEMENT FOR RECTANGULAR MICROSTRIP ANTENNAS
In the present work a design of wideband microstrip patch antennas have been investigated. These antennas were designed to operate in the Sband.Different techniques were followed in order to satisfy this
Design of an Einzel Lens Using Non-Classical Variation Technique
A computational investigation has been carried out in the field of charged-particle optics. The work is concerned with the design of einzel (uni potential) lens by using non-classical variation method under different magnification conditions.The potential field distribution of the einzel lens has been represented by an analytical function. The paraxial ray equation has been solved for finding the short beam trajectory of the charged particles traversing the lens.
Analytical –Computational Study of the Reflecting Telescope Parameters
In this work, a program of ray tracing program has been constructed. Thisprogram includes ray tracing for:
1. Skew ray tracing for spherical surfaces;
2. Skew ray tracing for Cartesian or quadric surfaces of revolution (conic surfaces).
A COMPUTATIONAL INVESTIGATION ON THE EFFECT OF LENS MATERIAL ON THE ABERRATIONS OF AN INFRARED OPTICAL SYSTEM
A computational investigation has been adopted for design an optical system for infrared (IR) homing head, operated in region of spectrum (3-5) µm.
THE ABERRATION CORRECTION DUE TO MISALIGNMENT IN ELECTROSTATIC LENSES
A computational investigation has been carried out in the field of charged-particle optics. The work is concerned with the design of electrostatic lenses with and without misalignment effect operated under different magnification conditions.The potential field distributions of einzel and immersion electrostatic lenses have been represented by analytic functions. The paraxial ray equation has been solved for the proposed fields to determine the trajectory of the charged particles traversing each lens.