Many-Body Physics

The Table of Contents for the book is as follows:

• Preface
• Scientific Committee
• Relativistic Nuclear Many-Body Problem
  • From Interacting Nucleons to Hamiltonian Lattice Gauge Theories: A Unified Many-Body Treatment
  • The Nambu–Jona-Lasinio Model and Nuclear Structure
  • Relativistic Impulse Approximation for Deuteron Scattering
  • The EMC Effect and the Nucleon Momentum Distribution in the Relativistic Mean Field Approach
  • Nuclear Level Density Parameter in Relativistic Mean Field Models
  • Nuclear Matter and Finite Nuclei in Relativistic Hartree-Fock Approximation with a Non-Linear Model
  • A Chiral Model in the Hartree-Fock Approach to Nuclear Structure
  • Magnetic Properties of Asymmetric Nuclear Matter in a Dirac-Hartree-Fock Approach
  • Identical bands in Superdeformed nuclei
• Perspective in Hadron Structure
  • Baryons in the Nambu–Jona-Lasinio Model: A Review
  • Recent Results from the Soliton Model for Baryons
  • Applications of Instanton Induced Quark Forces
  • The Quark Model and the Properties of Baryons and Nuclei
  • The Regularization of the Fermion Determinant in Chiral Quark Models
  • The Nucleon-Nucleon Potential in the Chromodielectric Soliton Model
  • Properties of Rho and Eta Mesons in Nuclear Matter
  • Problems in Counting the Number of Pions in the Nucleon
  • Screening and Dynamic Masses of Mesons in the Nambu–Jona-Lasinio Model
  • Electric Polarizability of the Nucleon in the Nambu–Jona-Lasinio Model
  • Medium Effects on ππ Scattering and ρππ Decay
  • 1/N_c Rotational Corrections to the g_A and Isovector Magnetic Moment in the NJL Model
  • Quark-Antiquark Interaction and Chiral Symmetry
  • Deuteron Properties and Quark Degrees of Freedom
  • Symmetries of Six-Quark States Related to the Nucleon-Nucleon Problem
  • Nucleon Description in a Chiral Cromodielectric Model
  • The Projected Chiral Soliton Model with Vector Mesons
  • The Strangeness Radius of the Nucleon
  • On the Role of Hidden-Colour States in Systems
  • The Dirac Oscillator and Hadron Structure
  • Perspectives of Palumbo's New Lattice Regularization
  • Consistent Treatment of the Bosonized Nambu–Jona-Lasinio Model
  • Chiral Perturbation Theory at the Quark Level
  • Spin Force and Diquark Picture of the Proton
• Mean Field and Semiclassical Theories
  • Quantum Beats and Classical Orbits in Mean-Field Systems
  • Fluctuations and Correlations in Strongly Interacting Fermi and Bose Systems
  • The Mean Field Approximation in Mesoscopic Systems
  • Coincidence Polarized Electron Scattering from Polarized Deformed Nuclei
  • Quantum Many-Body Dynamics in the Gaussian Approximation and Beyond
  • Optimized Expansion for the Effective Action in Quantum Field Theory
  • A Self-Consistent Mean-Field Expansion for Two Subsystems: Examples
• Thermal Theories
  • The Many-Body Problem in Thermo Field Dynamics
  • Projected Statistics
  • The SU(1,1)-Algebra and Dissipation
  • Temperature Dependence of Bifurcation of Equilibria in the SU(2) Lipkin Model
  • Nuclear Fluid Dynamics at Finite Temperature
  • Angular Momentum Projection at Finite Temperature
• Symmetries and Group Theoretical Methods
  • Dynamical Symmetry of Rotating Many-Body Systems from Galaxies to Nuclei
  • Generalized Deformed Algebras in Molecular and Nuclear Physics
  • The q-Deformed Versions of the Pairing Interaction
  • Understanding Quantum Algebras through Toy Models
• Density Functional Theories
  • Non-Local Density Functionals for Exchange and Correlation: Application to Atoms and Clusters
  • On the Variational Content of the Wigner-Kirkwood ħ Expansion
  • Density Gradient Expansion of the Electronic Exchange-Correlation Energy and its Generalization
  • Density Functional Theory of Field Theoretical Systems
  • Dynamic Response of Deformed Separable Systems
  • Fourth Order ħ-Corrections to the Extended Relativistic Thomas-Fermi Model
  • Finite Size Numerical Study of the Two Dimensional Electron System in a High Magnetic Field Using a Localised Basis Set
  • Local Spin Density Calculations of Piezo-Spectroscopic Constants of Deep Defects in Semiconductors
  • Collective Modes in Metal Clusters and Cavities a Fluid-Dynamical Approach
  • A New Pseudopotential for Simple Metals
  • On the Effect of Intrinsic Noise on Chaotic Systems
  • Compression of Metallic Clusters in the Stabilized Jellium Model
  • The Super-Atom Model as Link between Atoms and Solids: The Jellium-Model for Metal-Clusters
• List of Participants