• Refine Query
  • Source
  • Publication year
  • to
  • Language
  • 5
  • 2
  • Tagged with
  • 9
  • 9
  • 9
  • 9
  • 4
  • 3
  • 3
  • 3
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • 2
  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Range-energy measurements for 742-Mev protons

Ward, John E. January 1959 (has links)
Thesis (M.S. in Physics)--United States Naval Postgraduate School, 1959. / "Physics and Mathematics" -t.p. Includes bibliographical references (p. 39).
2

The Stopping Power of Amorphous and Channelled Silicon at All Energies as Computed with the Binary Encounter Approximation

Bickel, David, 1970- 12 1900 (has links)
This thesis utilizes the binary encounter approximation to calculate the stopping power of protons penetrating silicon. The main goal of the research was to make predictions of the stopping power of silicon for low-energy and medium-energy channelled protons, in the hope that this will motivate experiments to test the theory developed below. In attaining this goal, different stopping power theories were compared and the binary encounter approach was applied to random (non-channelled) and high-energy channelled protons in silicon, and these results were compared with experimental data.
3

The computerized calculation of stopping power nuclear reaction kinematics

Coy, Richard I. 03 June 2011 (has links)
This thesis describes the development of computer programs and the theory for the calculations of stopping power and nuclear reaction kinematics. The nuclear reaction kinematics program computes position and nonrelativistic energy data as well as center-of-mass solid angle transformations and information on detector resolution for nuclear reactions and elastic scattering experiments involving two-body final states. The stopping power program calculates stopping power (an index of the charged particle energy absorption properties of a material) of elemental absorbers for protons, deuterons, tritons, He3, and alpha particles from minimal input data. The calculated stopping powers are accurate to within one per cent over the nonrelativistic energy range of 2 to 12 Mev.Ball State UniversityMuncie, IN 47306
4

A range-ionization method to identify stopping Kaons in ILFord G.5 nuclear emulsion

Elkadi, Sadiq Mohamed 03 June 2011 (has links)
The identification of stopping charged particles in G.5 nuclear emulsion by using a residual range ionization method has been investigated in this experiment using a large stack of ILFord, G.5 nuclear emulsion pellicles exposed to 450 and 435 Me V/c K ˉ mesons at the Berkeley Bevatron.The restricted rate of energy loss vs kinetic energy for protons has been calculated theoretically, and given in Barkas(9). Then for given values of B , we calculated the restricted rate of energy loss vs the kinetic energy of muon, pion, kaon, and sigma particles.The measurement of the residual range and the counting of blobs in each residual range segment were carried out for four known stopping pions tracks. A second degree polynomial computer fit program was used to interpret the plot of residual range vs blobs/100 μ m. Then a particular point on the plot was chosen as a reference for normalizing the relative grain density (g*), theoretically and experimentally. Next, theoretical tables of residual range (R) vs relative grain density (g*theo) were calculated for muons, pions, kaons, protons, and sigmas. Those portions of the latter tables, for which (g*theo) was less than - 2, were used for the above mentioned theoretical plot of residual range (R) vs relative grain density (g* theo). The theoretically predicted curves were then tested by experimentally measuring the residual range and counting the blobs of each range segment of two selected stopping particle (primary) tracks which we suspected to be stopping kaon tracks. Then the second degree polynomial computer fit to the plotted data of the measured residual range vs blobs/l00 μm was carried out for each of the two suspected stopping kaon particles. Three points from each curve were picked and superimposed on the theoretical curves. The results were good but showed that it is necessary to measure a sufficiently long residual range, and more than one segment of blob-counts should be used along the measured residual range for accurate identification of the given particle.Ball State UniversityMuncie, IN 47306
5

Semiclassical, Monte Carlo model of atomic collisions : stopping and capture of heavy charged particles and exotic atom formation /

Beck, William A., January 1997 (has links)
Thesis (Ph. D.)--University of Washington, 1997. / Vita. Includes bibliographical references (leaves [112]-119).
6

Angular Dependence of the Stopping Processes and the Yields of Ion-induced Electron Emission from Channeled MEV Protons in <100> Silicon Foils

Zhao, Zhiyong 12 1900 (has links)
The present work reports the experimental evidence of anomalous energy loss, energy straggling, and the corresponding ion-induced electron emission yields of channeled protons in silicon.
7

The Stopping of Energetic Si, P and S Ions in Ni, Cu, Ge and GaAs Targets

Nigam, Mohit 12 1900 (has links)
Accurate knowledge of stopping powers is essential for these for quantitative analysis and surface characterization of thin films using ion beam analysis (IBA). These values are also of interest in radiobiology and radiotherapy, and in ion- implantation technology where shrinking feature sizes puts high demands on the accuracy of range calculations. A theory that predicts stopping powers and ranges for all projectile-target combinations is needed. The most important database used to report the stopping powers is the SRIM/TRIM program developed by Ziegler and coworkers. However, other researchers report that at times, these values differ significantly from experimental values. In this study the stopping powers of Si, P and S ions have been measured in Ni, Cu, Ge and GaAs absorbers in the energy range ~ 2-10 MeV. For elemental films of Ni, Cu and Ge, the stopping of heavy ions was measured using a novel ERD (Elastic Recoil Detection) based technique. In which an elastically recoiled lighter atom is used to indirectly measure the energy of the incoming heavy ion using a surface barrier detector. In this way it was possible to reduce the damage and to improve the FWHM of the detector. The results were compared to SRIM-2000 predictions and other experimental measurements. A new technique derived from Molecular Beam Epitaxy (MBE) was developed to prepare stoichiometric GaAs films on thin carbon films for use in transmission ion beam experiments. The GaAs films were characterized using X-ray Photoelectron Spectroscopy (XPS) and Particle Induced X-ray Emission (PIXE). These films were used to investigate the stopping powers of energetic heavy ions in GaAs and to provide data for the calculation of Bethe-Bloch parameters in the framework of the Modified Bethe-Bloch theory. As a result of this study, stopping power data are available for the first time for Si and P ions in the energy range 2-10 MeV stopping in GaAs absorbers.
8

Avaliação da interação de feixes monoenergéticos e polienergéticos por meio de simulações em GEANT4 em fantomas diversos / Evaluation of the interaction of monoenergy and polyenergytic beams by means of GEANT4 simulations in miscellaneous phanton

Yagui, Akemi 06 July 2017 (has links)
A terapia com prótons está presente em 16 países e até 2015 tratou mais de 130 mil pacientes. No entanto, no Brasil essa terapia ainda não está presente por diversos motivos, sendo o principal o alto custo. Antes de realizar tratamentos, é necessário fazer alguns testes para verificação da entrega de energia dos feixes de prótons. Como as medidas de microdosimetria são muito caras, a principal alternativa é a realização de simulações em programas computacionais, como o GEANT4 e SRIM. O GEANT4 é um programa que permite simular geometrias complexas, enquanto que o SRIM realiza simulações mais simples e ambas trabalham com o método de Monte Carlo. Neste trabalho foram utilizadas estas duas ferramentas para realizar simulações de feixes de prótons em fantomas com três diferentes composições (água, água e tecido ósseo, tecido ósseo e cerebral). Para realizar a análise da entrega de energia dos feixes de prótons ao longo destes fantomas, tornou-se necessário criar um programa denominada “Programa de Processamento de Dados em Próton Terapia Simulada”, que proporcionou criar matrizes, além dos cálculos dos picos de Bragg para avaliação da interação. Além disso, foi analisada a homogeneidade da interação de um feixe de prótons em um detector, em que foi verificado que as simulações em GEANT4 são homogêneas, não tendo uma tendência do feixe em se localizar em uma determinada região, assim como as energias depositadas são iguais nas regiões do fantoma. Também foram avaliados os valores do alcance de profundidade dos picos de Bragg em fantomas cilíndricos com três diferentes densidades: 1,03 g/cm³, 1,53 g/cm³ e 2,03 g/cm³, sendo a primeira, a densidade fornecida pelo GEANT4 para tecido cerebral. Foi verificado que as distâncias do alcance de profundidade dos picos de Bragg são iguais nestas três diferentes densidades. / Proton therapy is present in 16 countries and by 2015 has treated more than 130,000 Patients. However, in Brazil this therapy is not yet present for several reasons, Being the main the high cost. Before performing treatments, it is necessary to do some tests to verify the energy delivery of the proton bundles. As the Microdosimetry are very expensive, the main alternative is to carry out simulations in Programs such as GEANT4 and SRIM. GEANT4 is a program that Allows you to simulate complex geometries, while SRIM performs more complex simulations. Simple and both work with the Monte Carlo method. On this work were used these twain tools to perform a proton beam simulation in phantom with three different compositions (water, bones and water, brain and bones). To perform the energy delivery analysis of the proton beams along these phantoms, has become necessary create a program denominated “Data Processing Program Proton Therapy Simulated”, which allowed to create matrices, beyond the calculations of the Bragg peaks for interaction evaluation. Besides that, it was analyzing the homogeneity of the integration of a proton beam into a detector, in which it was verified that the simulations on GEANT4 are homogeneous, not having a tendency of the beam in locating in a certain region, just as the energies deposited are equal. The value of the depth range of the Bragg peaks were also evaluated in cylindrical phantoms with three different densities: 1,03 g/cm³, 1,53g/cm³ and 2,03 g/cm³, the first being the density provided by GEANT4 for brain tissue. It has been found that the depth range distances of the Bragg peaks are the same at these three different densities.
9

Avaliação da interação de feixes monoenergéticos e polienergéticos por meio de simulações em GEANT4 em fantomas diversos / Evaluation of the interaction of monoenergy and polyenergytic beams by means of GEANT4 simulations in miscellaneous phanton

Yagui, Akemi 06 July 2017 (has links)
A terapia com prótons está presente em 16 países e até 2015 tratou mais de 130 mil pacientes. No entanto, no Brasil essa terapia ainda não está presente por diversos motivos, sendo o principal o alto custo. Antes de realizar tratamentos, é necessário fazer alguns testes para verificação da entrega de energia dos feixes de prótons. Como as medidas de microdosimetria são muito caras, a principal alternativa é a realização de simulações em programas computacionais, como o GEANT4 e SRIM. O GEANT4 é um programa que permite simular geometrias complexas, enquanto que o SRIM realiza simulações mais simples e ambas trabalham com o método de Monte Carlo. Neste trabalho foram utilizadas estas duas ferramentas para realizar simulações de feixes de prótons em fantomas com três diferentes composições (água, água e tecido ósseo, tecido ósseo e cerebral). Para realizar a análise da entrega de energia dos feixes de prótons ao longo destes fantomas, tornou-se necessário criar um programa denominada “Programa de Processamento de Dados em Próton Terapia Simulada”, que proporcionou criar matrizes, além dos cálculos dos picos de Bragg para avaliação da interação. Além disso, foi analisada a homogeneidade da interação de um feixe de prótons em um detector, em que foi verificado que as simulações em GEANT4 são homogêneas, não tendo uma tendência do feixe em se localizar em uma determinada região, assim como as energias depositadas são iguais nas regiões do fantoma. Também foram avaliados os valores do alcance de profundidade dos picos de Bragg em fantomas cilíndricos com três diferentes densidades: 1,03 g/cm³, 1,53 g/cm³ e 2,03 g/cm³, sendo a primeira, a densidade fornecida pelo GEANT4 para tecido cerebral. Foi verificado que as distâncias do alcance de profundidade dos picos de Bragg são iguais nestas três diferentes densidades. / Proton therapy is present in 16 countries and by 2015 has treated more than 130,000 Patients. However, in Brazil this therapy is not yet present for several reasons, Being the main the high cost. Before performing treatments, it is necessary to do some tests to verify the energy delivery of the proton bundles. As the Microdosimetry are very expensive, the main alternative is to carry out simulations in Programs such as GEANT4 and SRIM. GEANT4 is a program that Allows you to simulate complex geometries, while SRIM performs more complex simulations. Simple and both work with the Monte Carlo method. On this work were used these twain tools to perform a proton beam simulation in phantom with three different compositions (water, bones and water, brain and bones). To perform the energy delivery analysis of the proton beams along these phantoms, has become necessary create a program denominated “Data Processing Program Proton Therapy Simulated”, which allowed to create matrices, beyond the calculations of the Bragg peaks for interaction evaluation. Besides that, it was analyzing the homogeneity of the integration of a proton beam into a detector, in which it was verified that the simulations on GEANT4 are homogeneous, not having a tendency of the beam in locating in a certain region, just as the energies deposited are equal. The value of the depth range of the Bragg peaks were also evaluated in cylindrical phantoms with three different densities: 1,03 g/cm³, 1,53g/cm³ and 2,03 g/cm³, the first being the density provided by GEANT4 for brain tissue. It has been found that the depth range distances of the Bragg peaks are the same at these three different densities.

Page generated in 0.0878 seconds