The nuclear many-body problem 2001

This is an expert and illuminating review of the leading models of nuclear structure: effective field theories based on quantum chromodynamics; ab initio models based on Monte Carlo methods employing effective nucleon-nucleon interactions; diagonalization and the Monto Carlo shell model; non-relativistic and relativistic mean-field theory and its extensions; and symmetry-dictated approaches. Theoretical advances in major areas of nuclear structure are discussed: nuclei far from stability and radioactive ion beams; gamma ray spectroscopy; nuclear astrophysics and electroweak interactions in nuclei; electron scattering; nuclear superconductivity; superheavy elements. The interdisciplinary aspects of the many-body problem are also discussed. Recent experimental data are examined in light of state-of-the-art calculations. Recent advances in several broad areas of theoretical structure are covered, making the book ideal as a supplementary textbook.

• Preface. I: Nuclear Many-Body Problem: Building Blocks. Role of Chiral Symmetry in the Nuclear Many-Body Problem
• N. Kaiser, W. Weise. Quantum Monte Carlo Calculations of p-shell Nuclei
• S.C. Pieper. Electron Scattering and the Nuclear Many-Body Problem
• T.W. Donnelly. Relativistic Effects in Quasielastic Electron Scattering
• M.B. Barbaro. II: Nuclear Shell Model. Effective Interactions for Finite Nuclei
• M. Hjorth-Jensen. Magic Numbers in Exotic Nuclei and Spin-Isospin Properties of NN Interaction
• T. Otsuka, et al. Quantum Monte Carlo Methods for the Nuclear Many Body Problem at Finite Temperature
• Y. Alhassid. Quadrupole Collective States in the Monte-Carlo Shell Model
• N. Shimizu, et al. Variational Approach to Medium Mass N=Z Nuclei
• A. Petrovici. Description of Exotic Nuclei using Continuum Shell Model
• N. Michel, et al. III: Relativistic Models. Relativistic Field Theories and the Microscopic Description of the Nuclear System
• P. Ring. Relativistic Mean Field Approach with Density and Momentum-Dependent Coupling Vertices
• S. Typel, H.H. Wolter. Effects of New Couplings from Relativistic Effective Field Theory Models
• M. Centelles, et al. Rotating Nuclei in the Relativistic Mean Field Theory: Microscopic nature of nuclear magnetism
• A.V. Afanaesjev, et al. Nuclear Fission Described in the Framework of the Relativistic Mean Field Theory: The Strutinsky type approach
• V.V. Pashkevich, P. Ring. Relativistic Pseudospin Symmetry in Nuclei
• J.N. Ginocchio, A. Leviatan. Relativistic Pseudospin Symmetry and the Structure of Nuclear States
• A. Leviatan, J.N. Ginocchio. The Pseudospin Symmetry in Finite Nuclei: Dirac Phenomenology
• S. Marcos, et al. IV: Symmetry Dictated Approaches. Microscopic Description of Heavy Deformed Nuclei
• J.G. Hirsch, et al. Electromagnetic Transition Strengths in 104Cd and 101Ag and their Interpretation within the Interacting Boson (Fermion) plus Broken Pair Model
• A. Jungclaus, et al. Investigation of Properties of Mixed Symmetry States in 94Mo and 96Ru
• P. von Brentano, et al. V: Pairing in Nuclei. Sources of Pairing in Nuclei
• R.A. Broglia. Relativistic Theory of Pairing in Finite Nuclei
• M. Serra, P. Ring. Pairing Properties in Relativistic Mean Field Models Based on Effective Field Theory
• M. Del Estal, et al. Contact Pairing Interaction for the Hartree-Fock-Bogoliubov Calculations
• J. Dobaczewski, et al. Size Dependence of Pairing in Finite Fermi Systems
• M. Farine, P. Schuck. Pairing Correlations along the Fission Path
• H.J. Krappe, S. Fadeev. VI: Nuclear Collective Motion. Multi-Phonon States in Spherical Nuclei
• V.Y. Ponomarev. Collective Properties of the Low Energy Dipole Response in the Relativistic RPA
• N. Paar, et al. Extensions of the Perturbed SPA: Decay Rates of Damped Systems and Improvement for Small Temperatures
• C. Rummel, et al. High-Spin Structure of Neutron-rich Dy Isotopes
• A. Ansari, H.L. Yadav. VII: Nuclei Far From Stability. The Challenges of Understanding Exotic Nuclei
• R.F. Casten. Quadrupole Collectivity in Theories Beyond Mean Field with Effective Forces
• R. Rodriguez-Guzman, et al. Mean-field Treatment of Isobaric Excitations in N-Z Nuclei. Search for the Isoscalar Pairing Collectivity
• W. Satula. Particle-Unstable Nuclei: Mean Field Description
• A.T. Kruppa, et al. Proton Emission from Gamow Resonance
• T. Vertse, et al. Nucleon Distributions in Loosely Bound Nuclei
• Y.K. Gambhir. Alpha Cluster Condensation in Threshold States of Self-conjugate 4n Nuclei
• P. Schuck, et al. VIII: Superheavy Nuclei. Superheavy Elements -- Discoveries and Challenges
• G. Munzenberg. Towards the Structure of the Heaviest Nuclei
• P.A. Butler. A Liquid Drop Model (LDM) for Nuclear Semi-Bubbles or, more generally, Systems Consisting of Domains with Different Constant Density
• J.-F. Berger, et al. Synthesis of Superheavy Elements
• V.Yu. Denisov. Recent Investigations of Superheavy Elements
• R. Smolanczuk. IX: Weak Interactions and Astrophysics. Weak-Interaction Processes in Nuclear Astrophysics
• K. Langanke. Hartree-Fock-BCS Calculations of Beta-decay Half-lives
• I.N. Borzov. Neutrino Propagation in Neutron Matter and the Nuclear Equation of State
• J. Margueron, et al. Properties of Nuclei in the Neutron Star Crust
• P. Magierski, et al. X: Intersections. Shell Model with Random Interactions
• V. Zelevinsky, et al. Kohn-Sham Approximation with Finite Range Forces
• X. Vinas, et al. Thermal Phase Transitions in Finite Quantum Systems
• D.J. Dean. Fractality for the Nuclear Line of Stability, Atomic Weights and Molecular Weights
• V. Paar, et al. Index.

An expert and illuminating review of the leading models of nuclear structure: effective field theories based on quantum chromodynamics; ab initio models based on Monte Carlo methods employing effective nucleon-nucleon interactions; diagonalization and the Monto Carlo shell model; non-relativistic and relativistic mean-field theory and its extensions; and symmetry-dictated approaches. Theoretical advances in major areas of nuclear structure are discussed: nuclei far from stability and radioactive ion beams; gamma ray spectroscopy; nuclear astrophysics and electroweak interactions in nuclei; electron scattering; nuclear superconductivity; superheavy elements. The interdisciplinary aspects of the many-body problem are also discussed. Recent experimental data are examined in light of state-of-the-art calculations. Recent advances in several broad areas of theoretical structure are covered, making the book ideal as a supplementary textbook.

• Preface. I: Nuclear Many-Body Problem: Building Blocks. Role of Chiral Symmetry in the Nuclear Many-Body Problem
• N. Kaiser, W. Weise. Quantum Monte Carlo Calculations of p-shell Nuclei
• S.C. Pieper. Electron Scattering and the Nuclear Many-Body Problem
• T.W. Donnelly. Relativistic Effects in Quasielastic Electron Scattering
• M.B. Barbaro. II: Nuclear Shell Model. Effective Interactions for Finite Nuclei
• M. Hjorth-Jensen. Magic Numbers in Exotic Nuclei and Spin-Isospin Properties of NN Interaction
• T. Otsuka, et al. Quantum Monte Carlo Methods for the Nuclear Many Body Problem at Finite Temperature
• Y. Alhassid. Quadrupole Collective States in the Monte-Carlo Shell Model
• N. Shimizu, et al. Variational Approach to Medium Mass N=Z Nuclei
• A. Petrovici. Description of Exotic Nuclei using Continuum Shell Model
• N. Michel, et al. III: Relativistic Models. Relativistic Field Theories and the Microscopic Description of the Nuclear System
• P. Ring. Relativistic Mean Field Approach with Density and Momentum-Dependent Coupling Vertices
• S. Typel, H.H. Wolter. Effects of New Couplings from Relativistic Effective Field Theory Models
• M. Centelles, et al. Rotating Nuclei in the Relativistic Mean Field Theory: Microscopic nature of nuclear magnetism
• A.V. Afanaesjev, et al. Nuclear Fission Described in the Framework of the Relativistic Mean Field Theory: The Strutinsky type approach
• V.V. Pashkevich, P. Ring. Relativistic Pseudospin Symmetry in Nuclei
• J.N. Ginocchio, A. Leviatan. Relativistic Pseudospin Symmetry and the Structure of Nuclear States
• A. Leviatan, J.N. Ginocchio. The Pseudospin Symmetry in Finite Nuclei: Dirac Phenomenology
• S. Marcos, et al. IV: Symmetry Dictated Approaches. Microscopic Description of Heavy Deformed Nuclei
• J.G. Hirsch, et al. Electromagnetic Transition Strengths in 104Cd and 101Ag and their Interpretation within the Interacting Boson (Fermion) plus Broken Pair Model
• A. Jungclaus, et al. Investigation of Properties of Mixed Symmetry States in 94Mo and 96Ru
• P. von Brentano, et al. V: Pairing in Nuclei. Sources of Pairing in Nuclei
• R.A. Broglia. Relativistic Theory of Pairing in Finite Nuclei
• M. Serra, P. Ring. Pairing Properties in Relativistic Mean Field Models Based on Effective Field Theory
• M. Del Estal, et al. Contact Pairing Interaction for the Hartree-Fock-Bogoliubov Calculations
• J. Dobaczewski, et al. Size Dependence of Pairing in Finite Fermi Systems
• M. Farine, P. Schuck. Pairing Correlations along the Fission Path
• H.J. Krappe, S. Fadeev. VI: Nuclear Collective Motion. Multi-Phonon States in Spherical Nuclei
• V.Y. Ponomarev. Collective Properties of the Low Energy Dipole Response in the Relativistic RPA
• N. Paar, et al. Extensions of the Perturbed SPA: Decay Rates of Damped Systems and Improvement for Small Temperatures
• C. Rummel, et al. High-Spin Structure of Neutron-rich Dy Isotopes
• A. Ansari, H.L. Yadav. VII: Nuclei Far From Stability. The Challenges of Understanding Exotic Nuclei
• R.F. Casten. Quadrupole Collectivity in Theories Beyond Mean Field with Effective Forces
• R. Rodriguez-Guzman, et al. Mean-field Treatment of Isobaric Excitations in N-Z Nuclei. Search for the Isoscalar Pairing Collectivity
• W. Satula. Particle-Unstable Nuclei: Mean Field Description
• A.T. Kruppa, et al. Proton Emission from Gamow Resonance
• T. Vertse, et al. Nucleon Distributions in Loosely Bound Nuclei
• Y.K.