Nuclear Structure and Heavy-Ion Dynamics
Published on 1. January 1984
609 pages
978-0-444-59776-2 (ISBN)
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Nuclear Structure and Heavy-Ion Dynamics
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L. Moretto | R.A. Ricci
Nuclear Structure and Heavy-ion Dynamics
International Summer School Proceedings
Book
05/1984
Elsevier
€131.92
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Content
- Front Cover
- Nuclear Structure and Heavy-Ion Dynamics
- Copyright Page
- Table of Contents
- Preface
- Part 1: Lectures
- Chapter 1. Collective bands in the interacting-bodon model
- 1. Introduction
- 2. The interacting-boson model (IBA-1)
- 3. Relation with the collective model
- 4. Physical meaning of the boson model
- Chapter 2. Competition between collective and single-particle excitations at high-spin states
- 1. Introduction
- 2. Description of odd-odd transitional nuclei
- 3. Coupling of two quasi-particles to three-axial rotor in an even-mass nucleus
- 4. Coupling of two quasi-particles to an IBA core in an evenmass nucleus
- 5. The nature of the increase of the moment of inertia in actinide nuclei
- 6. The MONSTER starts running
- 7. Conclusions
- Chapter 3. Discrete and quasi-continuum gamma-ray spectroscopy on high-spin states
- Introduction
- 1. What is the maximum angular momentum nuclei can hold
- 2. The ?-ray quasi-continuum and the 3 different moments of inertia
- 3. Discrete-line spectroscopy in deformed nuclei
- Chapter 4. Gamow-Teller transitions and the nuclear model
- 1. Introduction
- 2. The shell model approach
- 3. Comparisons of model calculations with data
- 4. The (p, n) reaction as a Gamow-Teller probe
- 5. Discussion of GT strength discrepancy
- 6. Experimental techniques for neutron spectroscopy
- Chapter 5. Gross, intermediate and fine structure in heavy-ion reactions
- 1. Introduction
- 2. Reminder of theoretical tools
- 3. Gross structure
- 4. Structure of intermediate width
- 5. Fine structure and compound nuclear fluctuations
- 6. Conclusion
- Chapter 6. The path integral formulation of the semiclassical approximation and its application to nuclear reactions between heavy ions
- Introduction
- 1. The semi-classical approximation (SCA)
- 2. Quasi-elastic reactions between heavy ions
- 3. Statistical reactions
- 4. Conclusion
- Chapter 7. Reactions between complex nuclei. Various aspects of fissionlike processes and the limits of complete fusion in heavy nuclei
- 1. Introduction
- 2. Complete fusion and fission. Fission barrier for the rotating liquid drop
- 3. «To fuse or not to fuse ». Fissionlike splitting. Its main characteristics
- 4. On the origin of the fissionlike process when fission barrier has vanished
- Chapter 8. Incomplete-fusion reactions as fast binary processes
- 1. Introduction and background
- 2. Models of incomplete-fusion reactions
- 3. Data on incomplete-fusion reactions
- 4. Summary and outlook
- Chapter 9. Dynamics of dissipative heavy-ion reactions
- 1. Introduction pag
- 2. Macroscopic variables
- 3. Kinetic energy
- 4. Potential energy
- 5. One-body dissipation
- 6. Equations of motion
- 7. Results
- 8. Fluctuations caused by particle exchange
- Chapter 10. Statistics at work in heavy-ion reactions
- Introduction
- Part I: Light-particle emission and fission: a new look at compound-nucleus decay
- Part II: The statistics of angular momentum in heavy-ionreactions
- Chapter 11. Spin vector of fragments in deep inelastic reactions
- 1. Introduction
- 2. Particle spectra
- 3. Gamma-ray spectra
- 4. Gamma-ray multiplicity
- 5. Gamma-ray angular distribution
- 6. Spin polarization of the reaction fragments
- Chapter 12. Fusion reactions and related experimental techniques
- 1. Introduction
- 2. Characteristics of the compound-nucleus reactions
- 3. Experimental techniques
- 4. The total fusion cross-section
- 5. Evaporation residues in the mass region Ac^50÷70 via direct detection techniques
- Part 2: Seminars
- Chapter 13. Spinor symmetries and supersymmetries in nuclear physics
- Chapter 14. Intermediate structure in alpha and heavy-ion scatterings
- 1. Introduction
- 2. Excitation functions in ion scatterings
- 3. Phase-shift analysis of elastic-scattering angular distributions
- 4. Summary
- Chapter 15. Open problems in the microscopic approach to the interacting-boson model
- 1. Introduction
- 2. The microscopic structure of monopole and quadrupole bosons
- 3. Validity of the SD truncation
- Chapter 16. Description of spin-isospin excitations
- 1. Introduction
- 2. Experimental data and theoretical descriptions
- 3. Phenomenological approach and effective forces
- 4. Random-phase approximation and «fundamental» forces
- 5. The resonance spreading
- 6. Resonance strength and background
- Chapter 17. Anomalons
- 1. Introduction
- 2. The meaning of the story
- 3. Conclusions
- APPENDIX A: Statistics to method A
- APPENDIX B: X2 distribution of 2SN/?.
- APPENDIX C: Pooling data of different charges
- APPENDIX D: The F-test
- Chapter 18. Gamma-ray circular polarization in Kr-induced reactions
- 1. Introduction
- 2. Double-symmetric set-up involving two parallel-plate avalanche counters
- 3. Deflection function, nuclear polarization and gamma-ray circular polarization
- 4. Measured polarizations as functions of Q-value, scattering angle and mass asymmetry
- 5. Conclusions
