Nuclear spectroscopy. Part B /
| Corporate Author: | |
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| Other Authors: | |
| Format: | eBook |
| Language: | English |
| Language Notes: | English. |
| Published: |
New York :
Academic Press,
1960.
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| Series: | Pure and applied physics ;
v. 9. |
| Subjects: | |
| Online Access: | Connect to the full text of this electronic book |
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; Chapter V. A. The Compound Nucleus; 1. Elastic and Inelastic Potential Scattering Amplitudes; 2. Resonance Amplitudes for Isolated Resonances; 3. Properties of the Widths; 4. Total Elastic Cross Section; 5. Reaction Cross Sections; 6. Total Cross Section; 7. Angular Distribution for Reactions; 8. Angular Distribution for Elastic Scattering of Neutral Particles
- 9. Angular Distribution for the Elastic Scattering of Charged Particles10. Gamma Rays in Nuclear Reactions; 11. Polarization ; 12. Overlapping Levels; 13. Many Overlapping Levels. Statistical Theory; 14. Density of Levels; REFERENCES; Chapter V. B. Direct Interactions; 1. Direct Interactions in Inelastic Scattering; 2. The Theory of Stripping and Pickup Reactions; REFERENCES; Chapter V. C. Angular Correlations in Nuclear Spectroscopy; 1. The Angular-Correlation Process; 2. Application of Angular Correlations to Specific Cases; 3. Appendix: Summary of Formulas and Notations; REFERENCES
- Chapter V. D. Analysis of Beta Decay Data1. The Role of Beta Decay in Nuclear Physics; 2. Outline of the Theory; 3. The Energy Distribution and Angular Correlation: Allowed Transitions; 4. Analysis of the Shapes of Allowed Spectra; 5. Forbidden Spectra; 6. Corrections to the Spectral Shapes; 7. ft Values; 8. Failure of Parity Conservation; 9. Orbital Capture; REFERENCES; Chapter V. E. Analysis of Internal Conversion Data; 1. Definition of the Process; 2. The Selection Rules. Mixtures of Multipoles; 3. The Calculation of Internal Conversion Coefficients
- 4. Numerical Values of Internal Conversion CoefficientsREFERENCES; Chapter V. F. Analysis of Gamma Decay Data; 1. Modes of De-excitation; 2. General Selection Rules for Electromagnetic Transitions; 3. Internal Conversion; 4. Nomenclature; 5. Isotopic Spin Selection Rules; 6. Units of Transition Strength; 7. The Independent-Particle Model; 8. Methods of Observation; 9. Empirical Data: the Light Elements; 10. Empirical Data: the Heavy Elements; 11. Special Selection Rules; 12. Branching Ratios; 13. Sum Rules; Appendix; REFERENCES; Chapter V.G. The Analysis of Reduced Widths
- 1. Single-Particle Widths2. Selection Rules; 3. Quantitative Analysis via the Shell Model; 4. Miscellaneous Considerations; Appendix: Stripping Reaction Reduced Widths; REFERENCES; Chapter V. H. Isotopic Spin Selection Rules; 1. Isotopic Spin Vector Operator; 2. Isotopic Spin of Nuclear States; 3. Coulomb Perturbation of Isotopic Spin States; 4. Nuclear Reactions; 5. Validity of the Isotopic Spin Quantum Number; REFERENCES; Part VI: Nuclear Models; Chapter VI. A. The Nuclear Shell Model; 1. Evidence for Magic Numbers; 2. The Shell Model; REFERENCES; Chapter VI. B. Nuclear Coupling Schemes