Interaction of Radiation with Matter

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Opis: Interaction of Radiation with Matter - Shuzo Uehara, Dimitris Emfietzoglou, Hooshang Nikjoo

Interaction of Radiation with Matter focuses on the physics of the interactions of ionizing radiation in living matter and the Monte Carlo simulation of radiation tracks. Clearly progressing from an elementary level to the state of the art, the text explores the classical physics of track description as well as modern aspects based on condensed matter physics. The first section of the book discusses the fundamentals of the radiation field. In the second section, the authors describe the cross sections for electrons and heavy ions-the most important information needed for simulating radiation track at the molecular level. The third section details the inelastic scattering and energy loss of charged particles in condensed media, particularly liquid water. The final section contains a large number of questions and problems to reinforce learning. Designed for radiation interaction courses, this textbook is the ideal platform for teaching students in medical/health physics and nuclear engineering. It gives students a solid grounding in the physical understanding of radiation track structure in living matter, enabling them to pursue further work in radiological physics and radiation dosimetry.Section I Introduction Radiation Transport Codes Basic Knowledge of Radiation Definitions of Radiation Electron Volt Special Theory of Relativity Electromagnetic Wave and Photon Interaction Cross Sections Quantities and Units of Radiation Atoms Atomic Nature of Matter Rutherford's Atomic Model Bohr's Quantum Theory Quantum Mechanics Atomic Structure Atomic Nucleus Constituents of Nucleus Binding Energy of Nucleus Nuclear Models Nuclear Reaction Nuclear Fission Nuclear Fusion Radioactivity Types of Radioactivity Formulas of Radioactive Decay X-Rays Generation of X-Rays Continuous X-Rays Characteristic X-Rays Auger Electrons Synchrotron Radiation Diffraction by Crystal Interaction of Photons with Matter Types of Interaction Attenuation Coefficients Half-Value Layer of X-Rays Mass Energy Absorption Coefficients Interaction of Electrons with Matter Energy Loss of Charged Particles Collision Stopping Power Radiative Stopping Power Ranges Multiple Scattering Cerenkov Radiation Interaction of Heavy Charged Particles with Matter Collision Stopping Powers Nuclear Stopping Powers Ranges Straggling of Energy Loss and Range I'-Ray, Restricted Stopping Power, and LET I'-Ray Restricted Stopping Power LET Introduction to Monte Carlo Simulation Monte Carlo Method Sampling of Reaction Point Condensed History Technique Slowing Down of Electrons Conversion of Angles Intersection at Boundary Section II Cross Sections for Interactions of Photons with Matter Coherent Scattering Photoelectric Effect Incoherent Scattering Pair Creation Soft X-Rays Cross Sections for Interactions of Electrons with Water Ionization Excitation Elastic Scattering Stopping Powers Cross Sections for Interactions of Low-Energy Protons (<1 MeVu-1) in Water Ionization Excitation Elastic Scattering Charge Transfer Stopping Powers Cross Sections for Interactions of Low-Energy I -Particles (<2 MeVu-1) in Water Ionization Excitation Elastic Scattering Charge Transfer Stopping Powers Cross Sections for Interactions of High-Energy Protons (>1 MeVu-1) in Water Ionization Excitation Elastic Scattering Model Calculations Using Track Structure Data of Electrons Ranges and W Values Depth-Dose Distributions Electron Slowing down Spectra Model Calculations Using Track Structure Data of Ions KURBUC Code System for Heavy Particles Ranges and W Values Depth-Dose Distributions Radial Dose Distributions Restricted Stopping Powers Section III Inelastic Scattering of Charged Particles in Condensed Media: A Dielectric Theory Perspective Introduction Formal Scattering Theory: The Problem Born Approximation Bethe Approximation Electron Gas Theory Optical Data Models Section IV Questions and Problems A Summary and References appear at the end of each chapter.


Szczegóły: Interaction of Radiation with Matter - Shuzo Uehara, Dimitris Emfietzoglou, Hooshang Nikjoo

Tytuł: Interaction of Radiation with Matter
Autor: Shuzo Uehara, Dimitris Emfietzoglou, Hooshang Nikjoo
Producent: Taylor
ISBN: 9781439853573
Rok produkcji: 2012
Ilość stron: 364
Oprawa: Twarda
Waga: 0.63 kg


Recenzje: Interaction of Radiation with Matter - Shuzo Uehara, Dimitris Emfietzoglou, Hooshang Nikjoo

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Interaction of Radiation with Matter

, ,

  • Producent: Taylor
  • Oprawa: Twarda

Interaction of Radiation with Matter focuses on the physics of the interactions of ionizing radiation in living matter and the Monte Carlo simulation of radiation tracks. Clearly progressing from an elementary level to the state of the art, the text explores the classical physics of track description as well as modern aspects based on condensed matter physics. The first section of the book discusses the fundamentals of the radiation field. In the second section, the authors describe the cross sections for electrons and heavy ions-the most important information needed for simulating radiation track at the molecular level. The third section details the inelastic scattering and energy loss of charged particles in condensed media, particularly liquid water. The final section contains a large number of questions and problems to reinforce learning. Designed for radiation interaction courses, this textbook is the ideal platform for teaching students in medical/health physics and nuclear engineering. It gives students a solid grounding in the physical understanding of radiation track structure in living matter, enabling them to pursue further work in radiological physics and radiation dosimetry.Section I Introduction Radiation Transport Codes Basic Knowledge of Radiation Definitions of Radiation Electron Volt Special Theory of Relativity Electromagnetic Wave and Photon Interaction Cross Sections Quantities and Units of Radiation Atoms Atomic Nature of Matter Rutherford's Atomic Model Bohr's Quantum Theory Quantum Mechanics Atomic Structure Atomic Nucleus Constituents of Nucleus Binding Energy of Nucleus Nuclear Models Nuclear Reaction Nuclear Fission Nuclear Fusion Radioactivity Types of Radioactivity Formulas of Radioactive Decay X-Rays Generation of X-Rays Continuous X-Rays Characteristic X-Rays Auger Electrons Synchrotron Radiation Diffraction by Crystal Interaction of Photons with Matter Types of Interaction Attenuation Coefficients Half-Value Layer of X-Rays Mass Energy Absorption Coefficients Interaction of Electrons with Matter Energy Loss of Charged Particles Collision Stopping Power Radiative Stopping Power Ranges Multiple Scattering Cerenkov Radiation Interaction of Heavy Charged Particles with Matter Collision Stopping Powers Nuclear Stopping Powers Ranges Straggling of Energy Loss and Range I'-Ray, Restricted Stopping Power, and LET I'-Ray Restricted Stopping Power LET Introduction to Monte Carlo Simulation Monte Carlo Method Sampling of Reaction Point Condensed History Technique Slowing Down of Electrons Conversion of Angles Intersection at Boundary Section II Cross Sections for Interactions of Photons with Matter Coherent Scattering Photoelectric Effect Incoherent Scattering Pair Creation Soft X-Rays Cross Sections for Interactions of Electrons with Water Ionization Excitation Elastic Scattering Stopping Powers Cross Sections for Interactions of Low-Energy Protons (<1 MeVu-1) in Water Ionization Excitation Elastic Scattering Charge Transfer Stopping Powers Cross Sections for Interactions of Low-Energy I -Particles (<2 MeVu-1) in Water Ionization Excitation Elastic Scattering Charge Transfer Stopping Powers Cross Sections for Interactions of High-Energy Protons (>1 MeVu-1) in Water Ionization Excitation Elastic Scattering Model Calculations Using Track Structure Data of Electrons Ranges and W Values Depth-Dose Distributions Electron Slowing down Spectra Model Calculations Using Track Structure Data of Ions KURBUC Code System for Heavy Particles Ranges and W Values Depth-Dose Distributions Radial Dose Distributions Restricted Stopping Powers Section III Inelastic Scattering of Charged Particles in Condensed Media: A Dielectric Theory Perspective Introduction Formal Scattering Theory: The Problem Born Approximation Bethe Approximation Electron Gas Theory Optical Data Models Section IV Questions and Problems A Summary and References appear at the end of each chapter.

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Cena 442,10 PLN
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Wysyłka: Niedostępna
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Szczegóły: Interaction of Radiation with Matter - Shuzo Uehara, Dimitris Emfietzoglou, Hooshang Nikjoo

Tytuł: Interaction of Radiation with Matter
Autor: Shuzo Uehara, Dimitris Emfietzoglou, Hooshang Nikjoo
Producent: Taylor
ISBN: 9781439853573
Rok produkcji: 2012
Ilość stron: 364
Oprawa: Twarda
Waga: 0.63 kg


Recenzje: Interaction of Radiation with Matter - Shuzo Uehara, Dimitris Emfietzoglou, Hooshang Nikjoo

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