1. Kinetic Monte Carlo; A.F. Voter.- 2. Accelerated Molecular Dynamics Methods; B.P. Uberuaga, A.F. Voter.- 3. Radiation Induced Structural Changes through In-Situ TEM observations; C. Kinoshita.- 4. Radiation Damage from Different Particle Types; G.S. Was, T.R. Allen.- 5. High Dose Radiation Effects in Steels; T.R. Allen.- 6. Radiation-Enhanced Diffusion and Radiation-Induced Segregation; T.R. Allen, G.S. Was.- 7. The Kinetics of Radiation-Induced Point Defect Aggregation and Metallic Colloid Formation in Ionic Solids; E.A. Kotomin, A.I. Popov.- 8. Microstructural Evolution off Irradiated Ceramics; C. Kinoshita.- 9. Optical & Scintillation Properties of Nonmetals: Inorganic Scintillators for Radiation Detectors; V.N. Makhov.- 10. Radiation-Induced Phase Transitions; P.M. Ossi.- 11. Introduction to Mathematical Models for Irradiation Induced Phase Transformations; K.E. Sickafus.- 12. Amorphous Systems and Amorphization; H. Bernas.- 13. Ion Beam Mixing; M. Nastasi, J.W. Mayer.- 14. Radiation Effects in Nuclear Fuels; H. Matzke.- 15. Role of Irradiation in Stress Corrosion Cracking; G.S. Was.- 16. Ion Beam Synthesis and Tailoring of Nanostructures; H. Bernas, R. Espiau de Lamaestre.- 17. Residual Stress Evolution During Energetic Particle Bombardment of Thin Films; A. Misra, M. Nastasi.- 18. Perovskite-Based Colossal Magneto-Resistance Materials and their Irradiation Studies: A Review; R. Kumar et al.- 19. Exposure of Bone to Ionizing Radiation; L. Kubisz.- Index.-
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.
Contains first-ever reviews of special topics:
Kinetic Monte Carlo (KMC) simulation of radiation damage
Accelerated molecular dynamics (AMD) simulations of radiation damage
Ion irradiation induced residual stress effects
Mathematical models for irradiation-induced phase transformations
Radiation damage from different particle types