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Microscopic Theory of Nuclei - NJSF037

Title:	Mikroskopická teorie jádra
Guaranteed by:	Institute of Particle and Nuclear Physics (32-UCJF)
Faculty:	Faculty of Mathematics and Physics
Actual:	from 2020
Semester:	summer
E-Credits:	6
Hours per week, examination:	summer s.:4/0, Ex [HT]
Capacity:	unlimited
Min. number of students:	unlimited
4EU+:	no
Virtual mobility / capacity:	no
State of the course:	taught
Language:	Czech, English
Teaching methods:	full-time
Teaching methods:	full-time

Guarantor:	prof. RNDr. Jan Kvasil, DrSc. Mgr. František Knapp, Ph.D.
Classification:	Physics > Nuclear and Subnuclear Physics
Is co-requisite for:	NJSF038

Opinion survey results Examination dates SS schedule Noticeboard

Annotation -

Last update: T_UCJF (12.05.2011)

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

Course completion requirements - Czech

Last update: doc. Mgr. Milan Krtička, Ph.D. (10.06.2019)

Složení ústní zkoušky.

Literature -

Last update: doc. Mgr. Milan Krtička, Ph.D. (30.04.2019)

Ring P., Schuck P., The Nuclear Many-Body Problem, Springer-Verlag N.Y., 1980

Soloviev V.G., Atomic Nuclei - Quasiparticles and Phonons, Institute of Physics Publ., Bristol, 1992

deShalit A., Feshbach H., Nuclear Physics Volume I: Nuclear Structure, J. Wiley & Sons, N.Y., 1974

Suhonen J., From Nucleons to Nucleus, Springer-Verlag, Berlin, 2007

Heyde K.L.G., The Nuclear Shell Model, Springer-Verlag, Berlin, 1990

P.J. Siemens, A.S. Jensen: Elements of Nuclei: Many-Body Physics with the Strong Interaction (Addison-Wesley 1987)

C.A. Bertulani, P.I. Danielewicz: Introduction to Nuclear Reactions (IoP 2004)

Requirements to the exam - Czech

Last update: doc. Mgr. Milan Krtička, Ph.D. (10.06.2019)

Požadavky ke zkoušce odpovídají sylabu předmětu v rozsahu prezentovaném na přednášce.

Syllabus -

Last update: doc. Mgr. Milan Krtička, Ph.D. (30.04.2019)

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