By A. Mozumder, Yoshihiko Hatano
Charged Particle and Photon Interactions with subject bargains in-depth views on phenomena of ionization and excitation prompted by way of charged particle and photon interactions with subject in vivo and in vitro. This reference probes options not just in radiation and photochemistry, but in addition in radiation physics, radiation biochemistry, and radiation biology in addition to contemporary purposes in drugs and fabric, environmental, area, and organic technology and engineering. It experiences studies at the interactions of high-energy photons, particularly within the vacuum ultraviolet-soft X-ray area to provide primary details at the basic approaches of the interactions of charged debris with subject.
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Additional resources for Charged Particle and Photon Interactions with Matter: Chemical, Physicochemical, and Biological Consequences with Applications
We have discussed such topics as energy transfer from incident radiation to ionized and excited states of medium molecules, as well as theories of stopping power and secondary ionization eﬀects. , the response of the matter receiving the transferred energy. In this sense, this chapter may be considered as preparatory groundwork for the succeeding contributions. REFERENCES 1. 2. 3. 4. 5. 6. 7. 8. , Eds. CRC Handbook of Radiation Chemistry. Boca Raton, FL: CRC Press, 1991, chaps. 2 and 3. ; Heitler, W.
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4 and Refs. 26–34). The basic premise in the application of charged particle track structure models is that one must include accurate information on the initial spatial distribution of events involving ionization and excitation occurring along the path of a charged particle if accurate models of the subsequent chemistry are to be developed. A motivating force in the development of these stochastic models has been their application in radiation biology where the chemistry and biochemistry following energy deposition by ionizing radiation ultimately leads to biological damage.