FYS4520 – Subatomic many-body theory I
Course content
Subatomic many-body theory is covered by two courses: FYS4520 gives an introduction to quantum mechanical many-body formalism and applies this theory on the structure of the nucleus, while FYS4530 – Subatomic Many-Body Theory II emphasises high-energy collisions between nuclei and phase transitions in nuclear matter. The courses consist of units of approx. 2 credits each. Each of the courses contains 3 basic units, and the rest of the units can be chosen among 11 other units, depending on the students' requirements. In FYS4520 the basic units are:
- Formalism in non-relativistic quantum mechanical many-body problems
- Microscopic mean field theory (Hartree-Fock approximation etc.)
- Shell model of nucleus
The other two units are chosen among:
- Time independent perturbation theory
- Time dependent perturbation theory
- Nucleon-nucleon interaction
- Effective interactions
- Pair correlations
- Nuclear rotation-vibration model
- Deformed shell model
- Infinite nuclear matter
- Neutron stars
- Nuclear rotation-vibration model
- Deformed shell model
Learning outcome
FYS4520 and FYS4530 – Subatomic Many-Body Theory II provides the student with knowledge about a modern quantum mechanical many-body description of nuclear systems.
Admission
Students who are admitted to study programmes at UiO must each semester register which courses and exams they wish to sign up for in Studentweb.
If you are not already enrolled as a student at UiO, please see our information about admission requirements and procedures.
Please note that the Department of Physics requires that you register in the beginning of May for advanced courses in physics which are taught in the fall term. See http://www.fys.uio.no/studier/kvalitetsreformen/mastergrader/pameldingsskjema_h.html for further information.
Courses with less than three students registrered will normally be cancelled.
Prerequisites
Recommended previous knowledge
FYS3110 – Quantum Mechanics and FYS3510 – Subatomic physics with applications in astrophysics (discontinued)
Teaching
The course extends over a full semester with 3 hours of lectures and 2 hours of problem solving per week.
Examination
Written exam after each completed unit. Final oral exam. Letter grade.
For detailed information about examinations at the Faculty of Mathematics and Natural Sciences please see http://www.matnat.uio.no/english/studies/index.html