Contemporary Nuclear Shell Models
Contemporary Nuclear Shell Models Proceedings of an International Workshop Held in Philadelphia, PA, USA, 29–30 April 1996 / [electronic resource] :
edited by Xing-Wang Pan, Da Hsuan Feng, Michel Vallières.
- XII, 312 p. 7 illus. online resource.
- Lecture Notes in Physics, 482 0075-8450 ; .
- Lecture Notes in Physics, 482 .
Nucleon-nucleon interactions -- Microscopic theories of effective interaction with an application to halo nuclei -- Large no-core basis-space shell model calculations for light nuclei -- Order and disorder in the nuclear shell model -- Large scale shell model calculations: The physics in and the physics out -- Realistic shell-model calculations for Sn isotopes -- Shell model monte carlo methods -- Shell model for large systems and quantum monte carlo diagonalization method -- Shell-model applications in nuclear astrophysics -- Large scale continuum shell model calculations for photonuclear reactions with ? isobars and exchange currents -- Kerman-Klein method for nuclear structure: Accomplishments and opportunities -- Solving the nuclear shell model with an algebraic method -- Challenges to microscopic theories of nuclear structure -- Projected shell model -- Relativistic mean field theory and applications in finite nuclei -- Some thoughts on the nuclear shell model -- Conventional shell model: Some issues.
This volume reports recent development in nuclear structure physics and closely related topics. Particularly, it centers on new methodologies and recent applications of the nuclear shell model such as quantum Monte Carlo methods, large-scale shell model calculations and microscopic theories of effective interactions. Each review focuses on one fundamental topic closely related to the nuclear shell model. Each topic is covered in sufficient depth and detail to be accessible to a wide audience including nuclear engineers and astrophysicists and those working in various fields of scientific computing and modelling.
9783540680680
10.1007/BFb0104359 doi
Nuclear physics.
Nuclear fusion.
Mathematical physics.
Nuclear Physics, Heavy Ions, Hadrons.
Nuclear Fusion.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Atomic, Molecular, Optical and Plasma Physics.
QC770-798 QC702.7.H42 QC793.5.H32-793.5.H329
539.7092
Nucleon-nucleon interactions -- Microscopic theories of effective interaction with an application to halo nuclei -- Large no-core basis-space shell model calculations for light nuclei -- Order and disorder in the nuclear shell model -- Large scale shell model calculations: The physics in and the physics out -- Realistic shell-model calculations for Sn isotopes -- Shell model monte carlo methods -- Shell model for large systems and quantum monte carlo diagonalization method -- Shell-model applications in nuclear astrophysics -- Large scale continuum shell model calculations for photonuclear reactions with ? isobars and exchange currents -- Kerman-Klein method for nuclear structure: Accomplishments and opportunities -- Solving the nuclear shell model with an algebraic method -- Challenges to microscopic theories of nuclear structure -- Projected shell model -- Relativistic mean field theory and applications in finite nuclei -- Some thoughts on the nuclear shell model -- Conventional shell model: Some issues.
This volume reports recent development in nuclear structure physics and closely related topics. Particularly, it centers on new methodologies and recent applications of the nuclear shell model such as quantum Monte Carlo methods, large-scale shell model calculations and microscopic theories of effective interactions. Each review focuses on one fundamental topic closely related to the nuclear shell model. Each topic is covered in sufficient depth and detail to be accessible to a wide audience including nuclear engineers and astrophysicists and those working in various fields of scientific computing and modelling.
9783540680680
10.1007/BFb0104359 doi
Nuclear physics.
Nuclear fusion.
Mathematical physics.
Nuclear Physics, Heavy Ions, Hadrons.
Nuclear Fusion.
Mathematical Methods in Physics.
Numerical and Computational Physics, Simulation.
Atomic, Molecular, Optical and Plasma Physics.
QC770-798 QC702.7.H42 QC793.5.H32-793.5.H329
539.7092