Microdosimetric Response of Physical and Biological Systems to Low and High Let Radiations

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Juni 2006



One of the aims of this book was to focus the attention of specialists to the diversity of the effects of the ionising radiation on biological and physical systems. Special emphasis has been placed on the exquisite complexities/differences introduced by high ionisation density versus low ionisation density irradiation in both biological and physical systems (Scholz Chapter 1, Horowitz Chapter 2, Olko Chapter 3). As well we wanted to point out the need for novel experimental and theoretical approaches required to advance the important fields of micro and nanodosimetry. Important first steps have already been taken, for example, the accelerated application of semiconductor detectors in their various forms to microdosimetry and as well to practical, important applications in the radiation dosimetry of oncological procedures (Rosenfeld Chapter 6). The vast number of applications of TLD to radiation dosimetry are not neglected; a special chapter is devoted to the application of TLDs to medical dosimetry applications (Mobit and Kron Chapter 7) as well as a tutorial approach in an additional chapter to the cavity theories required to extrapolate dose from the detector medium to the tissue medium (Mobit and Sandison - Chapter 5). One of the major features of this book is the intensive, in depth, coverage of the theory and modelling of TL both from the solid state physics point of view (Chen Chapter 4) and the microdosimetic point of view (Horowitz Chapter 2 and Olko Chapter 3). The many puzzling, quaint, quizzical features of TL science can now be understood in the framework of these advanced theoretical models, explained in straightforward, understandable terms. First ever attempt toquantify/unify effects of ionising radiation in both the biological and physical systems Leading internationally acclaimed experts in the science of interaction of radiation with matter Authoritative treatment of applications of semiconductor detectors and thermolumin


1. Dose Response of Biological Systems to Low- and High-LET Radiation (M. Scholz) 2. A Unified and Comprehensive Theory of the TL Dose Response of Thermoluminescent Systems Applied to LiF:Mg, Ti (Y. Horowitz) 3. Microdosimetric Interpretation of Photon Energy Response in TL Systems (P. Olko) 4. Dose Dependence of Thermoluminescence (TL) and Optically Stimulated Luminescence with Uniform Excitation (R. Chen) 5. Cavity Theory (P. Mobit and G. Sandison) 6. Semi-Conductor Radiation Detectors in Modern Radiation Therapy (A.B. Rosenfeld) 7. Applications of Thermoluminescent Dosemeters in Medicine (P. Mobit and T. Kron)


Professor Horowitz is the world-reknown expert on TL theory and applications to dosimetry. He is the author of the highly successful 3 volume book on TLD and TLD dosimetry, has authored approximately 150 research papers and fifteen review articles on TLD and the microdosimetric aspects of TL mechanisms. Prof. Horowitz is on the Editorial Board of three leading radiation-dosimetry- related international journals. In the past two decades he has pioneered and developed microdosimetric TL models such as the Unified Interaction Model, The Extended track Interaction Model and Modified track Structure Theory models for the calculation of TL efficiency. All co-authors are also internationally recognised scientists in their fields of expertise, Five of the eight are professors at highly rated universities and have had extensive experience in writing and editing books, conference proceedings, review articles, graduate student training, etc.
EAN: 9780444516435
ISBN: 0444516433
Untertitel: Theory and Applications to Dosimetry. Illustrations. Sprache: Englisch.
Verlag: Elsevier Science & Technology
Erscheinungsdatum: Juni 2006
Seitenanzahl: 500 Seiten
Format: gebunden
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