Advanced Radiation Protection Dosimetry: Series in Medical Physics and Biomedical Engineering
Editat de Shaheen Dewji, Nolan E. Hertelen Limba Engleză Paperback – 31 mar 2021
Advanced Radiation Protection Dosimetry covers all methods used in radiation protection dosimetry, including advanced external and internal radiation dosimetry concepts and regulatory applications. This book is an ideal reference for both scientists and practitioners in radiation protection and students in graduate health physics and medical physics courses.
Features:
- A much-needed book filling a gap in the market in a rapidly expanding area
- Contains the history, evolution, and the most up-to-date computational dosimetry models
- Authored and edited by internationally recognized authorities and subject area specialists
- Interrogates both the origins and methodologies of dose coefficient calculation
- Incorporates the latest international guidance for radiation dosimetry and protection
| Toate formatele și edițiile | Preț | Express |
|---|---|---|
| Paperback (1) | 333.61 lei 6-8 săpt. | |
| CRC Press – 31 mar 2021 | 333.61 lei 6-8 săpt. | |
| Hardback (1) | 1173.29 lei 6-8 săpt. | |
| CRC Press – 15 apr 2019 | 1173.29 lei 6-8 săpt. |
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Specificații
ISBN-13: 9780367780036
ISBN-10: 0367780038
Pagini: 508
Dimensiuni: 178 x 254 x 26 mm
Greutate: 0.94 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Seria Series in Medical Physics and Biomedical Engineering
ISBN-10: 0367780038
Pagini: 508
Dimensiuni: 178 x 254 x 26 mm
Greutate: 0.94 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press
Seria Series in Medical Physics and Biomedical Engineering
Cuprins
Chapter 1: Introduction. Chapter 2: Fundamental Concepts and Quantities. Chapter 3: Evolution of Radiation Protection Guidance in the United States. Chapter 4: Radiation Detection and Measurement. Chapter 5: Reference Individuals Defined for External and Internal Radiation Dosimetry. Chapter 6: Biokinetic Models. Chapter 7: Dosimetric Models. Chapter 8: Dose Coefficients. Chapter 9: Cancer Risk Coefficients. Chapter 10: Interpretation of Bioassay Results to Assess the Intake of Radionuclides.
Notă biografică
Dr. Shaheen A. Dewji is an Assistant Professor in the Department of Nuclear Engineering at Texas A&M University. Prior, Dr. Dewji was a staff scientist at Oak Ridge National Laboratory as part of the Center for Radiation Protection Knowledge. Her research and expertise has focused on developing computational models for the development of internal and external radiation dose coefficients for federal and international stakeholders in health and medical physics, radiation protection, nuclear security, and emergency response.
Dr. Nolan E. Hertel is a Professor of Nuclear and Radiological Engineering at Georgia Institute of Technology and holds a Joint Faculty Appointment in the Center for Radiation Protection Knowledge at the Oak Ridge National Laboratory. He received the Distinguished Scientific Achievement Award from the Health Physics Society in 2016 and the Rockwell Lifetime Achievement Award from the Radiation Protection and Shielding Division of the American Nuclear Society in 2018. Dr. Hertel is a recognized expert in radiation protection, shielding, detection, transport, and dosimetry and has been actively engaged in nuclear engineering education and research as a university professor and private consultant for 39 years.
Dr. Nolan E. Hertel is a Professor of Nuclear and Radiological Engineering at Georgia Institute of Technology and holds a Joint Faculty Appointment in the Center for Radiation Protection Knowledge at the Oak Ridge National Laboratory. He received the Distinguished Scientific Achievement Award from the Health Physics Society in 2016 and the Rockwell Lifetime Achievement Award from the Radiation Protection and Shielding Division of the American Nuclear Society in 2018. Dr. Hertel is a recognized expert in radiation protection, shielding, detection, transport, and dosimetry and has been actively engaged in nuclear engineering education and research as a university professor and private consultant for 39 years.
Recenzii
“Although many radiation protection scientists and engineers use dose coefficients, few know the origin of those dose coefficients. This is the first book in over 40 years to address the topic of radiation protection dosimetry in intimate detail.
This is a significant volume providing an overview of the field of radiation protection dosimetry, elaborating on the foundational concepts, historical evolution of regulation and guidance, scientific models, and measurements of exposure and uptake, and addressing application of these models in evaluating radiation exposure/uptake risk. It is part of the International Organization for Medical Physics book series in medical physics and biomedical engineering. The book provides a comprehensive summary of the current state-of-the art computational dosimetry techniques for radiation protection, with a clear, overarching goal of capturing the high-level knowledge used to generate fundamental radiation protection dosimetry quantities. The book addresses these concepts and regulatory applications considering both external and internal pathways. The methods presented are largely based on computational approaches and results from the latest International Commission on Radiological Protection (ICRP) and the International Commission on Radiation Units (ICRU). As such, the book is appropriate for both a national and international audience including medical physicists, health physicists, radiation protection specialists, nuclear medicine practitioners, epidemiologists, and regulators. Other groups that would benefit from the information include students, academic physicists/dosimetrists, and laboratory researchers.
The book contains the most up-to-date computational dosimetry models with each topic covered by internationally recognized experts in that field of study. After reviewing fundamental concepts and an engaging historical review of radiation protection guidance in the United States (with parallel coverage of the international recommendations), the book takes deep dives into several key topics: radiation detection and measurement, reference individuals (and associated phantoms) defined for external and internal radiation dosimetry, as well as biokinetic and dosimetric models. Additional key chapters include a comprehensive treatment of dose coefficients (and computational dosimetry approaches), cancer risk coefficients (considering both philosophy and application), and the interpretation of bioassay results to assess the intake of radionuclides.
This book elucidates important topics in a much more practical manner than highly technical publications. In addition, having the detailed information in a single, combined, high-quality volume with primary references provided is a plus. The included sample calculations and detailed case studies are exceptionally useful inclusions. This is an important book that ensures key knowledge transfer from outgoing subject matter experts in radiation protection to incoming generations.”
—Lawrence Dauer, Ph.D. (Memorial Sloan-Kettering Cancer Center) in Doody’s Core Titles Review 2022.
This is a significant volume providing an overview of the field of radiation protection dosimetry, elaborating on the foundational concepts, historical evolution of regulation and guidance, scientific models, and measurements of exposure and uptake, and addressing application of these models in evaluating radiation exposure/uptake risk. It is part of the International Organization for Medical Physics book series in medical physics and biomedical engineering. The book provides a comprehensive summary of the current state-of-the art computational dosimetry techniques for radiation protection, with a clear, overarching goal of capturing the high-level knowledge used to generate fundamental radiation protection dosimetry quantities. The book addresses these concepts and regulatory applications considering both external and internal pathways. The methods presented are largely based on computational approaches and results from the latest International Commission on Radiological Protection (ICRP) and the International Commission on Radiation Units (ICRU). As such, the book is appropriate for both a national and international audience including medical physicists, health physicists, radiation protection specialists, nuclear medicine practitioners, epidemiologists, and regulators. Other groups that would benefit from the information include students, academic physicists/dosimetrists, and laboratory researchers.
The book contains the most up-to-date computational dosimetry models with each topic covered by internationally recognized experts in that field of study. After reviewing fundamental concepts and an engaging historical review of radiation protection guidance in the United States (with parallel coverage of the international recommendations), the book takes deep dives into several key topics: radiation detection and measurement, reference individuals (and associated phantoms) defined for external and internal radiation dosimetry, as well as biokinetic and dosimetric models. Additional key chapters include a comprehensive treatment of dose coefficients (and computational dosimetry approaches), cancer risk coefficients (considering both philosophy and application), and the interpretation of bioassay results to assess the intake of radionuclides.
This book elucidates important topics in a much more practical manner than highly technical publications. In addition, having the detailed information in a single, combined, high-quality volume with primary references provided is a plus. The included sample calculations and detailed case studies are exceptionally useful inclusions. This is an important book that ensures key knowledge transfer from outgoing subject matter experts in radiation protection to incoming generations.”
—Lawrence Dauer, Ph.D. (Memorial Sloan-Kettering Cancer Center) in Doody’s Core Titles Review 2022.
Descriere
Many radiation protection scientists and engineers use dose coefficients, though few know their origin. This is the first book in over 40 years to address the topic of radiation protection dosimetry in intimate detail. It is an ideal reference for both scientists and practitioners in radiation protection and graduate students.