- 541 pages
- English
- PDF
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Nuclear Spectroscopy
About This Book
Nuclear Spectroscopy, Part B focuses on the ways in which experimental data may be analyzed to furnish information about nuclear parameters and nuclear models in terms of which the data are interpreted. This book discusses the elastic and inelastic potential scattering amplitudes, role of beta decay in nuclear physics, and general selection rules for electromagnetic transitions. The nuclear shell model, fundamental coupling procedure, vibrational spectra, and empirical determination of the complex potential are also covered. This publication is suitable for graduate students preparing for experimental research in nuclear spectroscopy, students who have completed graduate-level courses in quantum mechanics and nuclear physics, and specialists who wish to acquire a broader understanding of nuclear spectroscopy.
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Table of contents
- Front Cover
- Nuclear Spectroscopy
- Copyright Page
- Contributors to Part B
- Preface
- Table of Contents of Part B
- Contributors to Part A
- Contents of Part A
- Part V: Theoretical Analysis of the Data
- Part VI: Nuclear Models
- Appendixes
- Author Index
- Subject Index