Fundamentals of Radiation Chemistry

Fundamentals of Radiation Chemistry

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Description

This book describes the physical and chemical effects of radiation interaction with matter. Beginning with the physical basis for the absorption of charged particle radiations, Fundamentals of Radiation Chemistry provides a systematic account of the formation of products, including the nature and properties of intermediate species. Developed from first principles, the coverage of fundamentals and applications will appeal to an interdisciplinary audience of radiation physicists and radiation biologists. Only an undergraduate background in chemistry and physics is assumed as a prerequisite for the understanding of applications in research and industry.
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Product details

  • Hardback | 392 pages
  • 154.94 x 228.6 x 33.02mm | 612.35g
  • Academic Press Inc
  • San Diego, United States
  • English
  • 012509390X
  • 9780125093903

Review quote

"Mozumder's book can be highly recommended to a large community of chemists, physicists, and biologists." --J.P. Adloff, Zeitschrift fur Physikalische Chemie 214/10

"Mozumder (Univ. of Notre Dame, Indiana) has written a resource for practitioners of radiation chemistry, which will serve them well since he is a recognized expert in this field. This is a book...providing insight as well as a compendium of references and sources of ongoing research." --CHOICE, May 2000
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About A. Mozumder

A. Mozumder held the position of Research Professor for over twenty years at a university operated research institute funded by the U.S. Department of Energy. He is a fellow of the American Physical Society and a co-contributor of an article on radiation effects in the Encyclopedia Britannica. He has contributed full-length chapter articles to several books and has edited a special issue of Radiation Physics and Chemistry on early events.
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Table of contents

Introduction. Interaction of Radiation with Matter: Energy Transfer from Fast Charged Particles. Structure of Charged Particle Tracks in Condensed Media. Ionization and Excitation Phenomena. Radiation Chemistry of Gases. The Solvated Electron. Spur Theory of Radiation Chemical Yields: Diffusion and Stochastic Models. Electron Thermalization and Related Phenomena. Electron Escape: The Free-Ion Yield. Electron Mobility in Liquid Hydrocarbons. Radiation Chemical Applications in Science and Industry.
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