ISBN: 9781402052941
ID: 9781402052941
The purpose of this book is to provide students with a comprehensive overview of fundamental principles and relevant technical issues associated with the behavior of solids exposed to high-energy radiation. It details a broad range of topics falling into three general categories: (i) radiation damage fundamentals; (ii) materials dependent radiation damage phenomena; (iii) special topics (including swift ion irradiation effects, nanostructure design via irradiation, radiation detectors, and many other topics). This book serves to demonstrate the crucial interplay between experimental and theoretical investigations of radiation damage phenomena. The book explores computer simulation methods for the examination of radiation effects, ranging from molecular dynamics (MD) simulations of events occurring on short timescales (ps - ns), to methods such as kinetic Monte Carlo and kinetic rate theory, which consider damage evolution over times ranging from µs to hours beyond the initial damage event. The book also examines some of the experimental techniques used to assess radiation damage accumulation in solids, including transmission electron microscopy, ion channeling, nanoindentation, and positron annihilation, to name only a few techniques. TOC:1. Kinetic Monte Carlo.- 2. Accelerated Molecular Dynamics Methods.- 3. Radiation Induced Structural Changes through In-Situ TEM observations.- 4. Radiation Damage from Different Particle Types.- 5. High Dose Radiation Effects in Steels.- 6. Radiation-Enhanced Diffusion and Radiation-Induced Segregation.- 7. The Kinetics of Radiation-Induced Point Defect Aggregation and Metallic Colloid Formation in Ionic Solids.- 8. Microstructural Evolution off Irradiated Ceramics.- 9. Optical & Scintillation Properties of Nonmetals: Inorganic Scintillators for Radiation Detectors.- 10. Radiation-Induced Phase Transitions.- 11. Introduction to Mathematical Models for Irradiation Induced Phase Transformations.- 12. Amorphous Systems and Amorphization.- 13. Ion Beam Mixing.- 14. Radiation Effects in Nuclear Fuels.- 15. Role of Irradiation in Stress Corrosion Cracking.- 16. Ion Beam Synthesis and Tailoring of Nanostructures.- 17. Residual Stress Evolution During Energetic Particle Bombardment of Thin Films.- 18. Perovskite-Based Colossal Magneto-Resistance Materials and their Irradiation Studies: A Review.- 19. Exposure of Bone to Ionizing Radiation.- Index. weltbild.at > Bücher > Wissenschaft & Technik > Physik & Astronomie, [PU: Springer]
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ISBN: 9781402052941
ID: 842192567
The purpose of this book is to provide students with a comprehensive overview of fundamental principles and relevant technical issues associated with the behavior of solids exposed to high-energy radiation. It details a broad range of topics falling into three general categories: (i) radiation damage fundamentals; (ii) materials dependent radiation damage phenomena; (iii) special topics (including swift ion irradiation effects, nanostructure design via irradiation, radiation detectors, and many other topics). This book serves to demonstrate the crucial interplay between experimental and theoretical investigations of radiation damage phenomena. The book explores computer simulation methods for the examination of radiation effects, ranging from molecular dynamics (MD) simulations of events occurring on short timescales (ps - ns), to methods such as kinetic Monte Carlo and kinetic rate theory, which consider damage evolution over times ranging from µs to hours beyond the initial damage event. The book also examines some of the experimental techniques used to assess radiation damage accumulation in solids, including transmission electron microscopy, ion channeling, nanoindentation, and positron annihilation, to name only a few techniques. TOC:1. Kinetic Monte Carlo.- 2. Accelerated Molecular Dynamics Methods.- 3. Radiation Induced Structural Changes through In-Situ TEM observations.- 4. Radiation Damage from Different Particle Types.- 5. High Dose Radiation Effects in Steels.- 6. Radiation-Enhanced Diffusion and Radiation-Induced Segregation.- 7. The Kinetics of Radiation-Induced Point Defect Aggregation and Metallic Colloid Formation in Ionic Solids.- 8. Microstructural Evolution off Irradiated Ceramics.- 9. Optical & Scintillation Properties of Nonmetals: Inorganic Scintillators for Radiation Detectors.- 10. Radiation-Induced Phase Transitions.- 11. Introduction to Mathematical Models for Irradiation Induced Phase Transformations.- 12. Amorphous Systems and Amorphization.- 13. Ion Beam Mixing.- 14. Radiation Effects in Nuclear Fuels.- 15. Role of Irradiation in Stress Corrosion Cracking.- 16. Ion Beam Synthesis and Tailoring of Nanostructures.- 17. Residual Stress Evolution During Energetic Particle Bombardment of Thin Films.- 18. Perovskite-Based Colossal Magneto-Resistance Materials and their Irradiation Studies: A Review.- 19. Exposure of Bone to Ionizing Radiation.- Index. weltbild.at > Bücher > Wissenschaft & Technik > Physik & Astronomie, [PU: Springer]
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ISBN: 9781402052941
ID: 9781402052941
The purpose of this book is to provide students with a comprehensive overview of fundamental principles and relevant technical issues associated with the behavior of solids exposed to high-energy radiation. It details a broad range of topics falling into three general categories: (i) radiation damage fundamentals; (ii) materials dependent radiation damage phenomena; (iii) special topics (including swift ion irradiation effects, nanostructure design via irradiation, radiation detectors, and many other topics). This book serves to demonstrate the crucial interplay between experimental and theoretical investigations of radiation damage phenomena. The book explores computer simulation methods for the examination of radiation effects, ranging from molecular dynamics (MD) simulations of events occurring on short timescales (ps - ns), to methods such as kinetic Monte Carlo and kinetic rate theory, which consider damage evolution over times ranging from µs to hours beyond the initial damage event. The book also examines some of the experimental techniques used to assess radiation damage accumulation in solids, including transmission electron microscopy, ion channeling, nanoindentation, and positron annihilation, to name only a few techniques. TOC:1. Kinetic Monte Carlo.- 2. Accelerated Molecular Dynamics Methods.- 3. Radiation Induced Structural Changes through In-Situ TEM observations.- 4. Radiation Damage from Different Particle Types.- 5. High Dose Radiation Effects in Steels.- 6. Radiation-Enhanced Diffusion and Radiation-Induced Segregation.- 7. The Kinetics of Radiation-Induced Point Defect Aggregation and Metallic Colloid Formation in Ionic Solids.- 8. Microstructural Evolution off Irradiated Ceramics.- 9. Optical & Scintillation Properties of Nonmetals: Inorganic Scintillators for Radiation Detectors.- 10. Radiation-Induced Phase Transitions.- 11. Introduction to Mathematical Models for Irradiation Induced Phase Transformations.- 12. Amorphous Systems and Amorphization.- 13. Ion Beam Mixing.- 14. Radiation Effects in Nuclear Fuels.- 15. Role of Irradiation in Stress Corrosion Cracking.- 16. Ion Beam Synthesis and Tailoring of Nanostructures.- 17. Residual Stress Evolution During Energetic Particle Bombardment of Thin Films.- 18. Perovskite-Based Colossal Magneto-Resistance Materials and their Irradiation Studies: A Review.- 19. Exposure of Bone to Ionizing Radiation.- Index. weltbild.at > Bücher > Wissenschaft & Technik > Physik & Astronomie
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ISBN: 1402052944
ID: 14861206523
[EAN: 9781402052941], Neubuch, [PU: Springer], KURT E. SICKAFUS,EUGENE A. KOTOMIN,BLAS P. UBERUAGA,EDUCATION AND REFERENCE,GENERAL REFERENCE,ELECTROMAGNETISM,SOLID-STATE PHYSICS,CHEMISTRY,PHYSICS, Science|Chemistry|General, Science|Radiation, Technology|Material Science, Paperback. 592 pages. Dimensions: 9.1in. x 6.1in. x 1.3in.This is a comprehensive overview of fundamental principles and relevant technical issues associated with the behavior of solids exposed to high-energy radiation. These issues are important to the development of materials for existing fission reactors or future fusion and advanced reactors for energy production; to the development of electronic devices such as high-energy detectors; and to the development of novel materials for electronic and photonic applications. This item ships from multiple locations. Your book may arrive from Roseburg,OR, La Vergne,TN.
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2007, ISBN: 9781402052941
ID: 7479201
2007, Media-Kombination, Sonstige Produkte, [PU: Springer-Verlag New York Inc.]
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Title: | Radiation Effects in Solids |
ISBN: | 9781402052941 |
Details of the book - Radiation Effects in Solids
EAN (ISBN-13): 9781402052941
ISBN (ISBN-10): 1402052944
Paperback
Publishing year: 2007
Publisher: Springer-Verlag GmbH
592 Pages
Weight: 0,905 kg
Language: eng/Englisch
Book in our database since 04.06.2007 13:46:29
Book found last time on 05.10.2016 02:09:32
ISBN/EAN: 9781402052941
ISBN - alternate spelling:
1-4020-5294-4, 978-1-4020-5294-1
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