Prix bas
CHF176.80
Habituellement expédié sous 2 à 4 semaines.
Auteur
Gordon Gilmore, PhD, worked at the Universities Research Reactor (owned by Manchester and Liverpool Universities and now decommissioned) using gamma spectrometry, originally as an adjunct to chemical analysis, at a time when detectors and instrumentation were being developed from their relatively primitive beginnings to their modern sophisticated forms. That 25 years of experience, along with the late John Hemingway, led to the publication of the first edition of this work, with the intention of sharing a deep understanding of gamma spectrometry with the expanding population of gamma spectrometrists within universities and many establishments where radioactivity is used or studied. After his retirement from the University, as a director of Nuclear Training Services Ltd., he was called upon to lecture, develop methods and advise on setting up gamma spectrometry facilities. He is an Honorary Professor at the University of Liverpool. David Joss, PhD, is Professor of Physics at the University of Liverpool, UK, where he teaches undergraduate and postgraduate courses in nuclear physics. His research focuses on understanding the structure of the atomic nucleus using gamma-ray spectroscopy with large spectrometer arrays. He has published over 200 research articles from his research. He is a Fellow in the Institute of Physics and a Fellow of the Higher Education Academy.
Texte du rabat
The cutting-edge new edition of the classic introduction to radioactive measurement Gammy-Ray Spectrometry is a key technique in the study of radioactive decay. It measures the rate and extent of radioactivity from a variety of sources, both natural and artificial, including cosmic ray sources, nuclear reactors, high-energy physics experiments, and more. The resulting data can be essential to environmental monitoring and to a range of experimental sciences. For years, Practical Gamma-Ray Spectrometry has served as the classic introduction to this area for current or aspiring practitioners. A comprehensive but accessible treatment of the subject, with a thorough discussion of all major classes of detectors and their associated electronic systems, it contains everything a researcher needs to make optimal gamma-ray measurements. Now fully updated to reflect the latest technology and experimental data, it is a must-own for researchers looking to incorporate gamma-ray spectrometry into their scientific practice. Readers of the third edition of Practical Gamma-Ray Spectrometry will also find:
Contenu
Preface to the Third Edition xix
Preface to the Second Edition xxi
Preface to the First Edition xxiii
Internet Resources Within the Book xxv
About the Website xxvii
1 Radioactive Decay and the Origin of Gamma and X-Radiation 1
2 Interactions of Gamma Radiation with Matter 33
3 Semiconductor Detectors for Gamma-Ray Spectrometry 52
4 Electronics for Gamma-Ray Spectrometry 79
5 Statistics of Counting 128
6 Resolution: Origins and Control 167
7 Spectrometer Calibration 182
8 True Coincidence Summing 214
9 Computer Analysis of Gamma-Ray Spectra 236
10 Scintillation Spectrometry 265
11 Low Count-Rate Systems 286
12 High Count-Rate Systems 321
13 Ensuring Quality in Gamma-Ray Spectrometry 341
14 Gamma Spectrometry of Naturally Occurring Radioactive Materials (NORM) 364
15 Applications 382
16 Choosing and Setting Up a Detector, and Checking Its Specifications 410
17 Troubleshooting 434
Appendix A Sources of Information 449
Appendix B Gamma- and X-Ray Standards for Detector Calibration 455
Appendix C X-Rays Routinely Found in Gamma Spectra 465
Appendix D Gamma-Ray Energies in the Detector Background and the Environment 467
Appendix E Chemical Names, Symbols and Relative Atomic Masses of the Elements 471
Glossary 479
Index 497