Syllabus
- Prerequisites: theory of electromagnetic transitions, phase analysis in the scattering theory
- Nucleon-nucleon interactions: the role of symmetries, model potentials, modification of interactions in nuclear medium
- Ab intio approach: three-body and few-body systems, computational limitations, effective interactions
- Mean field: phenomenological single-particle potentials, deformation and Nilsson model, Hartree-Fock method
- Short-range residual interactions: pairing, Bardeen-Cooper-Schrieffer method
- Long-range residual interactions: collective nuclear vibrations, random-phase approximation
- Bohr collective model: vibrational and rotational motions of nuclei
- Statistical approach: highly excited states, level density and strength functions
- Nuclear reactions: types, mechanisms, elements of theoretical description
Annotation
Nucleon-nucleon interactions, Ab intio approach to atomic nucleus, Mean field approaches,
Short-range residual interactions, Long-range residual interactions, Bohr collective model,
Statistical approach, Nuclear reactions