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Nuclear physics : experimental and theoretical /
| Clasificación: | Libro Electrónico |
|---|---|
| Autor principal: | |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Kent [England] :
New Academic Science Limited,
2013.
|
| Edición: | Second edition. |
| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Cover ; Preface to the Second Edition; Preface to the First Edition; Acknowledgement; Contents; Chapter 1 The Perspective ; 1.1 Early History ; 1.2 Accelerators ; 1.3 Reactors ; 1.4 Complex Nuclei ; 1.5 Nuclear Forces ; 1.6 Nuclear Decay ; 1.7 Nuclear Structure Models ; 1.8 Microscopic Theories ; 1.9 Nuclear Reaction Models ; 1.10 Heavy-Ion Reactions ; References ; Suggested Reading ; Chapter 2 Static and Dynamical Properties of Nuclei ; 2.1 Static Properties of Nuclei ; 2.2 Dynamical Properties of Nuclei ; References ; Problems ; Chapter 3 Bound State Problem: The Deuteron.
- 3.1 Physical Properties of Deuteron 3.2 The Ground State of Deuteron (Solution For l=0) ; 3.3 Excited States of Deuteron ; 3.4 The Quadrupole Moment of the Deuteron and Tensor Forces ; 3.5 Solution of Deuteron With Central and Tensor Potential ; 3.6 Theoretical Determination of Quadrupole Moment 'Q'd of the Deuteron ; 3.7 Magnetic Moment of Deuteron ; References ; Problems ; Chapter 4 Nucleon-Nucleon Scattering at Low Energies ; 4.1 Introduction ; 4.2 Neutron-Proton Scattering ; 4.3 Proton-Proton Scattering ; 4.4 Polarisation at Low Energies ; References ; Problems.
- Chapter 5 Nucleon-Nucleon Scattering at High Energies 5.1 Introduction ; 5.2 Experimental Data ; References ; Problems ; Chapter 6 Nuclear Forces ; 6.1 Introduction ; 6.2 Iso-Spin Formalism ; 6.3 Effect of Exchange Forces ; 6.4 Meson Theory of Exchange Forces-Introductory Discussion ; 6.5 Nucleon-Nucleon Potential ; 6.6 The Quark Model ; References ; Problems ; Chapter 7 Radiative Transitions ; 7.1 Energetics and Experimental ; 7.2 Classical Theory of Radiative Transitions ; 7.3 Angular Momentum in Classical Electromagnetic Field ; 7.4 Quantum Mechanical Treatment of Transition Probabilities.
- 7.5 Internal Conversion 7.6 Angular Correlations ; 7.7 Experimental Methods and Results in Gamma Rays Spectroscopy ; References ; Problems ; Chapter 8 Beta Decay ; 8.1 Experimental Facts ; 8.2 Elementary Theory of B Decay ; 8.3 Formal Theory of Beta Interaction ; 8.4 Non-Conservation of Parity in Beta Decay ; 8.5 Selection Rules and Shapes of Spectra ; 8.6 Leptonic Matrix Elements ; 8.7 Total Matrix Elements for Beta Decay for Unpolarised Case ; 8.8 Comparison with Experiments ; 8.9 Theoretical Expression for Angular Distribution for Beta Decay From Oriented Polarised Nuclei.
- 8.10 Two-Component Theory of Neutrino-An Introduction 8.11 Conservation of Vector Current (CVC) Theory (Qualitative); References ; Problems ; Chapter 9 Alpha and Charged Particle Decay ; 9.1 Energetic and Experimental ; 9.2 Empirical Alpha Decay Law ; 9.3 Quantum Mechanical Theory of Alpha Decay ; 9.4 Cluster Decay ; 9.5 Theory of Cluster Decay ; 9.6 Spontaneous Fission ; 9.7 Beta Delayed and Self Delayed, Proton Decay ; References ; Problems ; Chapter 10 Shell Model ; 10.1 General ; 10.2 Common Potential V (r) in Shell Model ; 10.3 The Wave-Function and Nuclear Potential.