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Nuclear data :an independent-particle motion view /

"Version: 20241001"--Title page verso.Includes bibliographical references.1. Where are the shell model states found in nuclei? -- 1.1. Basic features of the model -- 1.2. What constitutes a shell model state? -- 1.3. Nuclei in doubly closed-shell regions -- 1.4. Exercises -- 1.5. Video-based tutorials2. How widely are shell model states seen in nuclei? -- 2.1. A case study view : the In (Z = 49) isotopes -- 2.2. A case study view : the Sb (Z = 51) isotopes -- 2.3. Singly closed shell nuclei (a brief note) -- 2.4. Exercises3. Where are Nilsson model states found in nuclei? -- 3.1. Basic features of the model -- 3.2. What constitutes a Nilsson state? -- 3.3. Survey of Nilsson model states in odd-mass nuclei -- 3.4. Exercises -- 3.5. Video-based tutorial4. How are Nilsson configurations affected by rotations? -- 4.1. The rotation-particle coupling term -- 4.2. Bands and rotational effects -- 4.3. Signature splitting -- 4.4. Spectroscopic factors -- 4.5. Exercises -- 4.6. Video-based tutorials5. How are Nilsson states manifested in even-mass nuclei? -- 5.1. Broken-pair states in even-even nuclei -- 5.2. K isomers -- 5.3. Backbending -- 5.4. Weak collectivity in deformed even-even nuclei -- 5.5. Odd-odd nuclei -- 5.6. Exercises -- 5.7. Video-based tutorialsAppendix A. Ground-state spins and parities -- Appendix B. Ground-state magnetic moments -- Appendix C. Mixing of Nilsson model quantum numbers.Full-text restricted to subscribers or individual document purchasers.Nuclear data represents measured (or evaluated) probabilities of various physical interactions involving the nuclei of atoms. It is used to understand the nature of such interactions by providing the fundamental input to many models and simulations in nuclear physics and related subjects. This book provides an intermediate treatment on the topic of nuclear structure focussing on an independent-particle motion view. It follows Nuclear Data: A Primer, which provided an introduction to nuclear structure. It is divided into four main chapters which outline the necessary theory and critically review it in the light of available data. Structured exercises promote student learning and understanding. This book follows a pathway that is useful to potential readers, particularly PhD students and advanced undergraduate students. Part of IOP Series in Nuclear Spectroscopy and Nuclear Structure.PhD students studying nuclear physics.Also available in print.Mode of access: World Wide Web.System requirements: Adobe Acrobat Reader, EPUB reader, or Kindle reader.David Jenkins is Head of the Nuclear Physics Group at the University of York, UK. He is also a Fellow of the Institute of Advanced Study, University of Strasbourg (USIAS) and an Extraordinary Professor of the University of Western Cape in South Africa. His research in experimental nuclear physics focusses on several topics such as nuclear astrophysics, clustering in nuclei and the study of proton-rich nuclei. John Wood is a Professor Emeritus in the School of Physics at Georgia Institute of Technology. He continues to collaborate on research projects in both experimental and theoretical nuclear physics. Special research interests include nuclear shapes and systematics of nuclear structure.Title from PDF title page (viewed on November 4, 2024).

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Series Title
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Call Number
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Publisher
: .,
Collation
1 online resource (various pagings) :illustrations (some color).
Language
English
ISBN/ISSN
9780750356480
Classification
539.7/4
Content Type
-
Media Type
-
Carrier Type
-
Edition
-
Subject(s)
Nuclear physics.
SCIENCE / Physics / Nuclear.
Particles (Nuclear physics)
Nuclear structure
Nuclear models.
Probabilities.
Specific Detail Info
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Statement of Responsibility
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