Nuclear Electrodynamics - Rilegato

Contenuti

1. Electromagnetic Multipolar Moments.- 1.1 Electric Charge and Nuclear Size.- 1.1.1 Composition of Nuclei and Properties of Nucleons.- 1.1.2 Nuclear and Internal Density Distribution.- 1.1.3 Quark Structure and Nucleon Form Factors.- 1.2 Nuclear Electrical and Magnetic Moments.- 1.2.1 Charge and Current Densities.- 1.2.2 Vector Spherical Functions.- 1.2.3 Multipole Expansions of the Charge and Magnetic Moment Densities.- 1.2.4 Static Multipole Nuclear Moments.- 1.3 Multipole Electromagnetic Fields.- 1.3.1 Multipole Potentials.- 1.3.2 Multipole Expansion of Plane Waves.- 1.3.3 Multipole Operators.- 1.3.4 Transformation of Multipole Operators Under the Time Inversion.- 2. Interaction Between Nuclei and Electromagnetic Radiation.- 2.1 Absorption and Emission of Photons by Nuclei.- 2.1.1 Second Quantization of Electromagnetic Field.- 2.1.2 Probability of Nuclear Emission of a Photon.- 2.1.3 A Cross-Section of Nuclear Absorption of a Photon.- 2.1.4 Multipole Expansions.- 2.1.5 Angular Distribution and Polarization of Radiation.- 2.2 Longwave Approximation.- 2.2.1 Applicability Condition for the Longwave Approximation.- 2.2.2 Electrical Transitions.- 2.2.3 Magnetic Transitions.- 2.2.4 Electromagnetic Multipole Transition Probability.- 2.3 Effective Electrical Charges of Nucleons.- 2.3.1 Dipole Electrical Transition Matrix Elements.- 2.3.2 Isospin Selection Rules for Dipole Electrical Transitions.- 2.3.3 Isospin Selection Rules for Dipole Magnetic Transitions.- 2.4 Sum Rules for Photon Absorption by Nuclei.- 2.4.1 Photonuclear Giant Dipole Resonance.- 2.4.2 The Dipole Sum Rule of Thomas, Reiche, and Kuhn.- 2.4.3 Other Dipole Sum Rules for Photonuclear Transitions.- 2.4.4 Sum Rules for Photonuclear Processes of Arbitrary Multipolarities.- 2.5 Dispersion Sum Rules.- 2.5.1 Kramers-Kronig Dispersion Relations.- 2.5.2 Sum Rule of Gell-Mann, Goldberger, and Thirring.- 2.6 Nuclear Photodisintegration.- 2.6.1 Deuteron Photodisintegration.- 2.6.2 Exchange Current.- 2.6.3 Nuclear Photodisintegration Accompanied by Nucleon Emission.- 2.6.5 Polarization of Deuteron Photodisintegration Products and Asymmetrical Cross-Section.- 3. Electron-Nucleus Interaction (Elastic and Inelastic Scattering).- 3.1 Derivation of the General Equation for the Electron-Nucleus Scattering Cross-Section.- 3.1.1 Various Processes of Electron-Nucleus Interaction.- 3.1.2 Transition Matrix Element.- 3.1.3 The Scattering Cross-Section, Averaged Over Electron Polarizations.- 3.2 Electron Interaction with a Nucleus Regarded as a Nucleon System.- 3.2.1 The Assumption that Individual Nucleon Contributions in Charge and Current Densities are Additive.- 3.2.2 Electron — Nucleon Interaction in a Nucleus with Relativistic Corrections.- 3.2.3 Nuclear Charge and Current Densities with Relativistic Corrections.- 3.2.4 The Necessity of Introducing Two Form Factors for a Nucleon Description.- 3.3 Transitions in the Discrete Spectrum.- 3.3.1 General Expression for the Nuclear Electroexcitation Cross-Section.- 3.3.2 Multipole Expansion.- 3.3.3 Siegert Theorem.- 3.3.4 Reduced Probabilities of Nuclear Multipole Transitions.- 3.3.5 The Cross-Section Dependence on the Transferred Momentum and Scattering Angle.- 3.3.6 Derivation of the Electroexcitation Cross-Section Without Using Multipole Potentials.- 3.4 Electron-Nucleus Elastic Scattering (General Consideration).- 3.4.1 Elastic Scattering Cross-Section and Reduced Matrix Elements.- 3.4.2 Partial Coulomb and Magnetic Form Factors.- 3.4.3 Electron-Nucleus Elastic Scattering Cross-Section and Nuclear Static Multipole Moments. Partial Form Factors.- 3.4.4 Qualitative Analysis of the Elastic Scattering Cross-Section.- 3.5 Electron Scattering by Free Nucleons.- 3.5.1 Rosenbluth Formula.- 3.5.2 Nucleon Form Factors.- 3.6 Elastic Scattering of Electrons by Deuterons.- 3.6.1 Electrical Deuteron Form Factors.- 3.6.2 Magnetic Deuteron Form Factor.- 3.6.3 Cross-Section of Elastic Electron Scattering by Deuterons.- 3.7 Elastic Scattering of Electrons by Three-Nucleon Nuclei.- 3.7.1 3H and 3He Ground States.- 3.7.2 Electromagnetic Form Factors of Three-Nucleon Nuclei.- 3.7.3 Cross-Section of Elastic Electron Scattering by 3H and 3He.- 3.8 Elastic Electron Scattering by Nuclei with A ? 1.- 3.8.1 Electron Scattering by Spinless 1p-Shell Nuclei.- 3.8.2 Electron Scattering by Spinless Nuclei with Mass Number A > 20.- 3.8.3 Electron Scattering by Nuclei with Spin Jo ? 0.- 3.8.4 Phenomenological Analysis of Data on the Elastic Electron Scattering by Nuclei.- 3.8.5 Consideration Extended Beyond the Born Plane-Wave Approximation. A Phase Analysis.- 3.8.6 High-Energy Approximation.- 3.9 Electroexcitation of Nuclei.- 3.9.1 Longitudinal (Coulomb) and Transverse Transitions.- 3.9.2 Lifetime of Nuclear Levels.- 3.9.3 The Helm Model.- 3.9.4 Adiabatic Approximation.- 3.9.5 The Liquid Drop Model.- 3.9.6 The Migdal, Goldhaber, and Teller Model.- 3.9.7 Electron Scattering by Hard, Non-Spherical Nuclei.- 3.9.8 Electroexcitation of Rotational-Vibrational Nuclear States.- 3.9.9 Many-Particle Shell Model with 1s-Coupling.- 3.9.10 Influence of a Bound Structure and Shell Potential on the Electroexcitation Probability.- 3.9.11 Nuclear Cluster Model.- 3.9.12 Shell Model with Residual Interaction. Hartree-Fock Method and Partial-Hole Model.- 3.9.13 Random Phases Approximation (RPA).- 3.9.14 Electron Wave Distortion Analysis.- 3.9.15 Dispersion Effects and Radiation Corrections.- 3.9.16 Scattering of Polarized Electrons by Orientated Nuclei.- 4. Electron-Nucleus Interaction (Nuclear Electrodisintegration and Inclusive Processes).- 4.1 Deuteron Electrodisintegration.- 4.1.1 Deuteron Electrodisintegration Cross-Section Disregarding the Interaction Between Disintegration Products.- 4.1.2 Contribution of the Final State Interaction.- 4.1.3 Analysis of Experimental Data on Deuteron Electrodisintegration.- 4.1.4 Polarization Effects Under Deuteron Electrodisintegration.- 4.2 Electrodisintegration of Three-Nucleon Nuclei.- 4.2.1 General Expressions for Electrodisintegration Cross-Sections of 3H and 3He.- 4.2.2 Model-Wave-Function Analysis of the Two-Particle Disintegration of Three-Nucleon Nuclei.- 4.2.3 Model-Wave-Function Analysis of the Complete Electrodisintegration of Three-Nucleon Nuclei.- 4.2.4 Cross-Section Evaluations for the Two-Particle Electrodisintegration of Three-Nucleon Nuclei by Using Given Nucleon-Nucleon Potentials.- 4.2.5 Evaluations of 3He(e, e’p)pn and 3H(e, e’p)nn Cross-Sections for Given Nucleon-Nucleon Interactions in Nuclear Ground States.- 4.2.6 Interpolation Model.- 4.3 Electrodisintegration of Light Nuclei.- 4.3.1 Inelastic Scattering of High-Energy Electrons by Nuclei Accompanied by Nucleon Emission.- 4.3.2 Model-Independent Description of the Nucleon Emission from Nuclei Under Scattering of High-Energy Electrons.- 4.3.3 Spectral Function.- 4.3.4 Many-Particle Shell Model and Nuclear Electrodisintegration.- 4.3.5 Momentum Distribution of Nuclear Nucleons.- 4.3.6 Analysis of Coincidence Experiments on the Electro-disintegration of Light Many-Nucleon Nuclei.- 4.3.7 Nucleon Polarization Under Nuclear Electrodisintegration.- 4.3.8 Nuclear Electrodisintegration Accompanied by Composite Particles Emission.- 4.4 Inclusive Electron Scattering by Nuclei.- 4.4.1 Exclusive and Inclusive Processes.- 4.4.2 General Formulas for the Cross-Sections of Inclusive Electron Scattering by Nuclei.- 4.4.3 Inclusive Electron Scattering by Deuterons.- 4.4.4 Electron Energy Distribution Under the Electrodisintegration of Light Nuclei.- 4.4.5 Sum Rule for the Inclusive Electron Scattering by Nuclei.- 4.4.6 Nucleon-Nucleon Correlation Function.- 4.4.7 Other Sum Rules for Electron Scattering by Nuclei.- 4.4.8 Inclusive Electron Scattering by Three-Nucleon Nuclei. Correlation Functions of 3H and 3He.- 4.4.9 Correlation Functions of Light Many-Nucleon Nuclei and Angular Electron Distributions Under Inclusive Scattering.- 4.4.10 Scaling Effect in the Inclusive Electron Scattering Cross-Sections.- 4.5 Inelastic Electron Scattering and Two-Particle Correlations in Nuclei.- 4.5.1 Relation between the Cross-Section of Inelastic Electron Scattering by Nuclei and Two-Nucleon Correlation Functions.- 4.5.2 Fermi-Gas Nuclear Model.- 4.5.3 Superfluid Nuclear Model.- 4.5.4 Fermi-Liquid Nuclear Model.- 4.5.5 Nuclear Shell Model.- 5. Electromagnetic Interaction Between Heavy Charged Particles and Nuclei.- 5.1 Electromagnetic Excitation of Nuclei by Heavy Charged Particles.- 5.1.1 Multipole Expansions.- 5.1.2 General Expression for the Coulomb Excitation Cross-Section.- 5.1.3 Cross-Sections of Electrical and Magnetic Nuclear Excitations in the Non-Relativistic Approximation.- 5.1.4 Wavefunctions of Charged Particles in the Nuclear Coulomb Field.- 5.1.5 Evaluation of Transition Matrix Elements of a Charged Particle.- 5.1.6 Radial Integrals in the Quasiclassical Approximation.- 5.1.7 The Theory of Coulomb Nuclear Excitation in the Classical Limit.- 5.1.8 Numerical Results for the Coulomb Nuclear Excitation Cross-Sections.- 5.1.9 Multiple Coulomb Nuclear Excitation.- 5.2 Disintegration of Complex Particles in the Nuclear Electromagnetic Field.- 5.2.1 Disintegration of Slow Deuterons in the Nuclear Coulomb Field.- 5.2.2 Disintegration of Fast Deuterons in the Nuclear Electromagnetic Field.- 5.2.3 Polarization of Composite Particles Disintegration Products in the Nuclear Electromagnetic Field.- 5.2.4 Disintegration of Light Nuclei in the Electromagnetic Field of Heavy Nuclei.- 5.2.5 Deuteron Disintegration by Nuclei in the Case of Nucleons Emission at 0°.- References.