Overview

This book summarizes basic knowledge of atomic, nuclear, and radiation physics that professionals need for efficient and safe use of ionizing radiation. Concentrating on the underlying principles of radiation physics, it covers prerequisite knowledge for medical physics courses on the graduate and post-graduate levels, providing the link between elementary physics on the one hand and the intricacies of the medical physics specialties on the other.

Full Product Details

Author:   Ervin B. Podgorsak (McGill University)
Publisher:   Springer-Verlag Berlin and Heidelberg GmbH & Co. KG
Imprint:   Springer-Verlag Berlin and Heidelberg GmbH & Co. K
Edition:   2nd ed. 2010
Dimensions:   Width: 15.50cm , Height: 3.30cm , Length: 23.50cm
Weight:   1.646kg
ISBN:  

9783642008740

ISBN 10:   3642008747
Pages:   745
Publication Date:   26 March 2010
Audience:   College/higher education ,  Postgraduate, Research & Scholarly
Format:   Hardback
Publisher's Status:   Active
Availability:   Awaiting stock  
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Table of Contents

to Modern Physics.- Coulomb Scattering.- Rutherford-Bohr Model of the Atom.- Production of X Rays.- Two#x2014;Particle Collisions.- Interactions of Charged Particles with Matter.- Interactions of Photons with Matter.- Energy Transfer and Energy Absorption in Photon Interactions with Matter.- Interactions of Neutrons with Matter.- Kinetics of Radioactive Decay.- Modes of Radioactive Decay.- Production of Radionuclides.- Waveguide Theory.- Particle Accelerators in Medicine.

Reviews

From the reviews of the second edition: This is a textbook by a distinguished physicist and educator that is intended for students in a graduate-level course covering the fundamentals of medical physics. The author states that the book's intent is to provide the missing link between elementary physics and the physics of the specialty of medical physics. The book meets this intent very well!. Any instructor teaching an introductory graduate-level course on the principles of medical physics should consider this book for adoption as a text. The book does not cover applications of the principles to topics such as dosimetry, quality and safety, or applications to radiology, nuclear medicine, or radiation oncology. What it does cover is the principles themselves, and it covers them very well. (Medical Physics, January 2006) Although intended as a textbook for radiation physics course incorporated in graduate medical physics degree programs, this book will be a delight and ready-reference also to seasoned practitioners. Besides the inclusion of a listing and elaborations of the significant milestones in radiation and medical physics from 1985 and Rontgen's X rays up through Hounsfield and Cormack's Computerized Tomography (CT) in 1971 and beyond, the book is packed with all the concepts, formulas and physical constants any radiation physics doctoral student would love to have wired into his or her brain, to sail through the most formidable examination with flying colors! This textbook, based on notes the author 'developed over the past 25 years of teaching radiation physics to MSc and PhD students in medical physics at McGill University' is a real gem for the bookshelf of anyone already professional working in the radiation sciences, as well as for a comprehensive teaching text aptly suitable for a graduate-level course within the medical radiation physics curriculum.' (John H. Hubbell, Radiation Physics and Chemistry) ...for the theory of radiation physics at a fundamental level, Podgorsak's book provides a wonderful resource presented in a well organized and easy to learn manner, in a way not found in any other text... [he] is to be congratulated for adding to the basic radiation physics learning tools for medical physics graduate students and researchers. (Jake van Dyk, London Regional Cancer Program, Can. Med Phys Newsletter (July 2006) It covers the prerequisite knowledge needed for courses specific to the subdisciplines of medical physics --radiotherapy physics, radiation dosimetry, imaging physics , and health physics. ! Every medical physicist should master the principles in the book so that their applications in specific fields of medical physics can be understood and appreciated. ! Book is recommended as the text for a course designed for entering graduate students in medical physics, and every medical physicist should understand and be able to utilize the information in the text. (William Hendee, Medical Physics, Vol. 37 (9), September, 2010)

From the reviews of the second edition: This is a textbook by a distinguished physicist and educator that is intended for students in a graduate-level course covering the fundamentals of medical physics. The author states that the book's intent is to provide the missing link between elementary physics and the physics of the specialty of medical physics. The book meets this intent very well!. Any instructor teaching an introductory graduate-level course on the principles of medical physics should consider this book for adoption as a text. The book does not cover applications of the principles to topics such as dosimetry, quality and safety, or applications to radiology, nuclear medicine, or radiation oncology. What it does cover is the principles themselves, and it covers them very well. (Medical Physics, January 2006) Although intended as a textbook for radiation physics course incorporated in graduate medical physics degree programs, this book will be a delight and ready-reference also to seasoned practitioners. Besides the inclusion of a listing and elaborations of the significant milestones in radiation and medical physics from 1985 and Rontgen's X rays up through Hounsfield and Cormack's Computerized Tomography (CT) in 1971 and beyond, the book is packed with all the concepts, formulas and physical constants any radiation physics doctoral student would love to have wired into his or her brain, to sail through the most formidable examination with flying colors! This textbook, based on notes the author 'developed over the past 25 years of teaching radiation physics to MSc and PhD students in medical physics at McGill University' is a real gem for the bookshelf of anyone already professional working in the radiation sciences, as well as for a comprehensive teaching text aptly suitable for a graduate-level course within the medical radiation physics curriculum.' (John H. Hubbell, Radiation Physics and Chemistry) ...for the theory of radiation physics at a fundamental level, Podgorsak's book provides a wonderful resource presented in a well organized and easy to learn manner, in a way not found in any other text... [he] is to be congratulated for adding to the basic radiation physics learning tools for medical physics graduate students and researchers. (Jake van Dyk, London Regional Cancer Program, Can. Med Phys Newsletter (July 2006) It covers the prerequisite knowledge needed for courses specific to the subdisciplines of medical physics --radiotherapy physics, radiation dosimetry, imaging physics , and health physics. ! Every medical physicist should master the principles in the book so that their applications in specific fields of medical physics can be understood and appreciated. ! Book is recommended as the text for a course designed for entering graduate students in medical physics, and every medical physicist should understand and be able to utilize the information in the text. (William Hendee, Medical Physics, Vol. 37 (9), September, 2010)

From the reviews of the second edition: This is a textbook by a distinguished physicist and educator that is intended for students in a graduate-level course covering the fundamentals of medical physics. The author states that the book's intent is to provide the missing link between elementary physics and the physics of the specialty of medical physics. The book meets this intent very well... Any instructor teaching an introductory graduate-level course on the principles of medical physics should consider this book for adoption as a text. The book does not cover applications of the principles to topics such as dosimetry, quality and safety, or applications to radiology, nuclear medicine, or radiation oncology. What it does cover is the principles themselves, and it covers them very well. (Medical Physics, January 2006) Although intended as a textbook for radiation physics course incorporated in graduate medical physics degree programs, this book will be a delight and ready-reference also to seasoned practitioners. Besides the inclusion of a listing and elaborations of the significant milestones in radiation and medical physics from 1985 and Rontgen's X rays up through Hounsfield and Cormack's Computerized Tomography (CT) in 1971 and beyond, the book is packed with all the concepts, formulas and physical constants any radiation physics doctoral student would love to have wired into his or her brain, to sail through the most formidable examination with flying colors... This textbook, based on notes the author 'developed over the past 25 years of teaching radiation physics to MSc and PhD students in medical physics at McGill University' is a real gem for the bookshelf of anyone already professional working in the radiation sciences, as well as for a comprehensive teaching text aptly suitable for a graduate-level course within the medical radiation physics curriculum.' (John H. Hubbell, Radiation Physics and Chemistry) ...for the theory of radiation physics at a fundamental level, Podgorsak's book provides a wonderful resource presented in a well organized and easy to learn manner, in a way not found in any other text... [he] is to be congratulated for adding to the basic radiation physics learning tools for medical physics graduate students and researchers. (Jake van Dyk, London Regional Cancer Program, Can. Med Phys Newsletter (July 2006) It covers the prerequisite knowledge needed for courses specific to the subdisciplines of medical physics -radiotherapy physics, radiation dosimetry, imaging physics , and health physics. ... Every medical physicist should master the principles in the book so that their applications in specific fields of medical physics can be understood and appreciated. ... Book is recommended as the text for a course designed for entering graduate students in medical physics, and every medical physicist should understand and be able to utilize the information in the text. (William Hendee, Medical Physics, Vol. 37 (9), September, 2010)

From the reviews of the second edition: This is a textbook by a distinguished physicist and educator that is intended for students in a graduate-level course covering the fundamentals of medical physics. The author states that the book's intent is to provide the missing link between elementary physics and the physics of the specialty of medical physics. The book meets this intent very well!. Any instructor teaching an introductory graduate-level course on the principles of medical physics should consider this book for adoption as a text. The book does not cover applications of the principles to topics such as dosimetry, quality and safety, or applications to radiology, nuclear medicine, or radiation oncology. What it does cover is the principles themselves, and it covers them very well. (Medical Physics, January 2006) Although intended as a textbook for radiation physics course incorporated in graduate medical physics degree programs, this book will be a delight and ready-reference also to seasoned practitioners. Besides the inclusion of a listing and elaborations of the significant milestones in radiation and medical physics from 1985 and Rontgen's X rays up through Hounsfield and Cormack's Computerized Tomography (CT) in 1971 and beyond, the book is packed with all the concepts, formulas and physical constants any radiation physics doctoral student would love to have wired into his or her brain, to sail through the most formidable examination with flying colors! This textbook, based on notes the author 'developed over the past 25 years of teaching radiation physics to MSc and PhD students in medical physics at McGill University' is a real gem for the bookshelf of anyone already professional working in the radiation sciences, as well as for a comprehensive teaching text aptly suitable for a graduate-level course within the medical radiation physics curriculum.' (John H. Hubbell, Radiation Physics and Chemistry) ...for the theory of radiation physics at a fundamental level, Podgorsak's book provides a wonderful resource presented in a well organized and easy to learn manner, in a way not found in any other text... [he] is to be congratulated for adding to the basic radiation physics learning tools for medical physics graduate students and researchers. (Jake van Dyk, London Regional Cancer Program, Can. Med Phys Newsletter (July 2006) It covers the prerequisite knowledge needed for courses specific to the subdisciplines of medical physics --radiotherapy physics, radiation dosimetry, imaging physics , and health physics. ! Every medical physicist should master the principles in the book so that their applications in specific fields of medical physics can be understood and appreciated. ! Book is recommended as the text for a course designed for entering graduate students in medical physics, and every medical physicist should understand and be able to utilize the information in the text. (William Hendee, Medical Physics, Vol. 37 (9), September, 2010)

Author Information

Ervin B. Podgorsak was born in Vienna, Austria and grew up in Ljubljana, Slovenia where he completed his undergraduate studies in technical physics at the University of Ljubljana in 1968. He then studied at the University of Wisconsin in Madison, Wisconsin, USA and obtained M.Sc. and Ph.D. degrees in physics. He completed his post-doctoral studies in medical physics at the University of Toronto in 1974 and moved to McGill University in Montreal, where he currently holds positions of Professor of Medical Physics and Director of the Medical Physics department.

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