Recent Progress in Many-Body Theories

Inhaltsverzeichnis

• Quark clusters in nuclei.
• Stochastic solution of nuclear models having sub-nuclear degrees of freedom.
• Coupled-cluster theory of pions in nuclear matter and the EMC effect.
• ?-Excitations and many-body theory of nuclear matter.
• Random walk in fock space.
• Nuclear matter properties in the BHF approximation with the Paris N-N potential and models of 3n interactions.
• Three-body forces, relativistic effects, isobars and pions in nuclear systems.
• Properties of matter in stellar collapse.
• Hydrodynamics of ultra-relativistic heavy ion collisions.
• Variational treatment of ?°-condensed neutron matter in a realistic potential model.
• Proton mixing in neutron star matter under ?° condensation.
• Tensor forces and the Fermi liquid properties of nuclear matter.
• The effective mass in nuclear matter and in nuclei.
• Deformations and correlations in nuclei.
• Correlated pairs near the fermi surface.
• Effective interactions and elementary excitations in electron and Helium liquids.
• Old dogs and new tricks: Beyond the ground state with CBF theory.
• Solution of the Ornstein-Zernike equation for non-uniform systems.
• Jastrow-Slater trial energy for the low density hard sphere fermi gas.
• Variational Monte Carlo approach on atomic impurities in 4He.
• Density-fluctuation spectra of 3He-HeII mixtures at T=0 K.
• Quantum-mechanical calculations of the properties of liquid He droplets.
• Variational approach to two-component coulomb liquids.
• Spin polarized 3He.
• The properties of pauli enhanced normal Fermi liquids in finite magnetic fields.
• Linear and non linear response.
• Correlations and the possibility of a charge-density-wave (CDW) instability in quantum electron liquids.
• CBF theory of metal surfaces: Chemisorption.
• Melting of electrons on corrugated surfaces—structural anddynamical properties in liquid and solid phases.
• Correlations in the layered electron-hole liquid.
• Dense coulomb plasmas: Quantum statistics and ordering.
• A conserving dynamic theory for the electron gas in metallic systems.
• What present theory of superconductivity needs from many-body physicists.
• Coupled cluster equations for superconducting systems.
• Coupled cluster approach with explicitly correlated cluster functions.
• Perturbation theory in a correlated basis.
• Recent developments in a correlated theory of linear response.
• Sum rules and a coupled cluster formulation of linear response theory.
• Variational EXP S methods.
• Computational quantum mechanics and the basis set problem.
• Parquet perturbed.
• Crossing symmetric rings, ladders, and exchanges.
• New perturbation scheme for quantum fluids based on low-density expansions.
• A direct access to many-body perturbation theory.
• Beyond the Thomas-Fermi-Weizsäcker-Dirac theory of electronic structure.
• The closed time-path Green's function formalism in many-body theory.
• Monte Carlo evaluations in finite fermionic systems.
• Application of Green's function Monte Carlo to one-dimensional lattice fermions.
• On the inverse problem in many body systems: From correlations to distribution function.
• The interpolating equations method in quantum fluids.
• Third International Conference on recent progress in many-body theories summary talk.