Description
Book SynopsisBuilding on Mozumder's and Hatano's Charged Particle and Photon Interactions with Matter: Chemical, Physicochemical, and Biological Consequences with Applications (CRC Press, 2004), Charged Particle and Photon Interactions with Matter: Recent Advances, Applications, and Interfaces expands upon the scientific contents of the previous volume by covering state-of-the-art advances, novel applications, and future perspectives. It focuses on relatively direct applications used mainly in radiation research fields as well as the interface between radiation research and other fields.
The book first explores the latest studies on primary processes (the physical stage), particularly on the energy deposition spectra and oscillator strength distributions of molecules interacting with charged particles and photons. Other studies discussed include the use of synchrotron radiation in W-value studies and the progress achieved with positrons and muons interacting with
Trade Review
I think that PhD students, postgrads and pure physics researchers will get most use from this text, particularly those who have read the earlier 2004 publication. However, I think that some of the chapters covering newer areas of research (e.g. environmental conservation) should provide any reader starting out with a comprehensive introduction with references.
—SCOPE, 2011
Table of ContentsIntroduction. Oscillator Strength Distribution of Molecules in the Gas Phase in the Vacuum Ultraviolet Range and Dynamics of Singly Inner-Valence Excited and Multiply Excited States as Superexcited States. Electron Collisions with Molecules in the Gas Phase. Time-Dependent Density Functional Theory for Oscillator Strength Distribution. Generalized Oscillator Strength Distribution of Liquid Water. New Directions in W-Value Studies. Positron Annihilation in Radiation Chemistry. Muon Interactions with Matter. Electron Localization and Trapping in Hydrocarbon Liquids. Reactivity of Radical Cations in Non-Polar Condensed Matter. Radiation Chemistry and Photochemistry of Ionic Liquids. Time Resolved Study on Nonhomogeneous Chemistry Induced by Ionizing Radiation with Low LET in Water and Polar Solvents at Room Temperature. Radiation Chemistry of Liquid Water with Heavy Ions: Steady-State and Pulse Radiolysis Studies. Radiation Chemistry of Liquid Water with Heavy Ions: Monte-Carlo Simulation Studies. Radiation Chemistry of High Temperature and Supercritical Water and Alcohols. Radiation Chemistry of Water with Ceramic Oxides. Ionization of Solute Molecules at the Liquid Water Surface, Interfaces, and Self-Assembled Systems. Low-Energy Electron Stimulated Reactions in Nanoscale Water Films and Water:DNA Interfaces. Physicochemical Mechanisms of Radiation Induced DNA Damage. Spectroscopic Study of Radiation-Induced DNA Lesions and Their Susceptibility to Enzymatic Repair. Application of Microbeams to the Study of the Biological Effects of Low Dose Irradiation. Redox Reactions of Antioxidants: Contributions from Radiation Chemistry of Aqueous Solutions. Computational Human Phantoms and Their Applications to Radiation Dosimetry. Cancer Therapy with Heavy Ion Beam. Nanoscale Charge Dynamics and Nanostructure Formation in Polymers. Radiation Chemistry of Resist Materials and Processes in Lithography. Radiation Processing of Polymers and Its Applications. UV Molecular Spectroscopy from Electron Impact for Applications to Planetary Atmospheres and Astrophysics. Chemical Evolution on Interstellar Grains at Low Temperatures. Radiation Effects on Semiconductors and Polymers for Space Applications. Application of Rare Gas Liquids to Radiation Detector. Application of Ionizing Radiation to Environmental Conversion. Applications to Biotechnology: Ion-Beam Breeding of Plants. Radiation Chemistry in Nuclear Engineering. Index.
