Polarization Phenomena In Physics : Applications To Nuclear Reactions.
| Main Author: | |
|---|---|
| Format: | eBook |
| Language: | English |
| Published: |
Singapore :
World Scientific Publishing Company,
2018.
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| Edition: | 1st ed. |
| Subjects: | |
| Online Access: | Click to View |
Table of Contents:
- Intro
- Contents
- Preface
- 1. Polarization, Alignment and Orientation
- 1.1 Polarization, Alignment and Orientation
- 1.2 Quantum Mechanical Treatment of Vector Polarization
- 2. Spin Observables by Density Matrix
- 2.1 Density Matrix in Spin Space
- 2.2 Relationships between Representations, Spherical and Cartesian
- 3. Spin Observables in Nuclear Reactions
- 3.1 General Formulae of Cross Section and Polarization in Nuclear Reactions
- 3.2 Cross Section and Polarization for Unpolarized Beam and Target
- 3.3 Cross Section and Analyzing Power for Polarized Beam or Target
- 3.4 Analyzing Power for Aligned Beam
- 3.5 Coefficients for Polarization Transfer, Depolarization and Spin Correlation
- 4. Invariant Amplitude Method and Scattering of Spin 1/2, 1 and 3/2 Particles
- 4.1 Decomposition of Transition Amplitudes into Invariant Amplitudes
- 4.2 Elastic Scattering of s = 1/2 Particle
- 4.3 Elastic Scattering of s = 1 Particle
- 4.4 Elastic and Inelastic Scattering of s = 3/2 Particle
- 5. Optical Potential and Elastic Scattering of Protons
- 5.1 Folding Model Interaction between Proton and Nucleus
- 5.2 Scattering of Proton by Optical Model Potential
- 6. Folding Model Interaction and Virtual Excitation in Scattering of Deuterons
- 6.1 Folding Model for Deuteron Nucleus Interaction
- 6.2 Interaction Induced by Virtual Excitation
- 6.3 Quantitative Analysis by the CDCC Method
- 7. Models of 7Li and Scattering by Nuclei
- 7.1 General View of α + t Cluster Model
- 7.2 Folding Interaction by the α + t Cluster Model
- 7.3 Numerical Calculation of Scattering by Cluster Model and Comparison with Experimental Data at Elab = 20.3 MeV
- 7.4 Folding Interaction by Continuum Model and Comparison with Experimental Data in Scattering by 120Sn at Elab = 44 MeV
- 7.5 Characteristics of the Contribution of the Tensor Interaction.
- 8. Polarization in Resonance Reaction
- 8.1 How to Derive Spin Parity of Resonance from Analyzing Power Data
- 8.2 Tensor Analyzing Powers by the Invariant Amplitude Method
- 8.3 Determination of the Spin Parity of Resonance
- 8.4 Reaction Amplitude in DWBA
- 8.5 Tensor Analyzing Powers by DWBA
- 9. Depolarization in p+3He Elastic Scattering and Time Reversal Theorem
- 9.1 Characteristics of Observed Depolarization of Protons in Scattering by 3He
- 9.2 Scattering Amplitude for Collisionbetween Spin 1/2 Particles
- 9.3 Interaction Model for p + 3He System
- 9.4 Relationships between Proton Depolarizationsin p + 3He Scattering
- 10. Three Nucleon Force and Polarization Phenomena in a Three Nucleon System
- 10.1 Three Nucleon Force
- 10.2 Nucleon Deuteron Scattering Amplitudes by the Invariant-Amplitude Method
- 10.3 Observables and Comparison with Experimental Data
- 10.4 Contributions of the Three Nucleon Forces
- 10.5 Summary and Future Problem in Few Nucleon Systems
- Appendix Scattering Amplitudes for TR- and TL-Tensor Interactions
- References.