Phelma Formation 2022

5PMGANP2 : Advanced nuclear physics - WPMEDAN9

  • Number of hours

    • Lectures 13.5
    • Projects 0
    • Tutorials 13.5
    • Internship 0
    • Laboratory works 0

    ECTS

    ECTS 2.0

Goal(s)

Intruduction to advanced microscopic and collective approaches used to describe low-energy nucler structure.

Contact Gabriela THIAMOVA

Content(s)

Simple models, Collective models

Phenomenological single-particle models (spherical shell model
and deformed Nilsson model).

Angular momentum coupling techniques, calculation of matrix
elements of tensor operators

Hartree-Fock method (phenomenological and microscopic
approach), applications to one-particle, one-hole, two-particle
two-hole nuclei.

Pairing interaction, Seniority model, BCS and HFB models
Nucleon-nucleon interactions

Microscopic description of collective vibrations (TDA, RPA)

Modern Topics (exotic nuclei, astrophysics, nuclear matter at high
densities)

Schedule
October-November



Prerequisites

Test

Written exam



Contrôle continu : CC
Examen écrit Session1 : DS1
Examen écrit Session 2 : DS2
N1 = Note finale session 1
N2 = Note finale session 2

En présentiel :
N1 = % max(TdE, CC) + % DS1
N2 = % max(TdE, CC) + % DS2

En distanciel :
N1 =
N2 =

Commentaire :

Additional Information

This course brings 2.0 ECTS to students in Energy courses (elective courses)

This course brings 3.0 ECTS to students in UE Energetic

This course brings 3.0 ECTS to students in UE Energy JUAS-ESIPAP

This course brings 2.0 ECTS to students in UE Energetic

Course list
Curriculum->Double-Diploma Engineer/Master->Semester 9
Curriculum->Master->Semester 9

Bibliography

  • Bohr, Mottelson: Nuclear Structure
    Volume 1 : Single particle motion
    Volume 2 : Nuclear deformations
  • Ring, Schuck ; The Nuclear Many Body problem
  • Greiner, Maruhn : Nuclear Models
  • R.F. Casten; Nuclear Structure from a Simple Perspective
  • Brink, Satchler : Angular Momentum
  • De Shalit, Talmi ; Nuclear Shell Theory