Nuclear physics and elementary particles

Nuclear physics and elementary particles
Master PhysiqueParcours Préparation à l'agrégation : physique

Catalogue2025-2026

Description

This is a two-part course presenting advanced concepts in particle physics and nuclear physics.

Compétences visées

•    Applying knowledge in physics;

•    Apply methods from mathematics and digital technology;

•    Produce a critical analysis, with hindsight and perspective;

•    Interact with colleagues in physics and other disciplines;

•    Communicate in writing and orally, including in English.

Syllabus

I-Principle of special relativity and its consequences for the description of space-time and its transformations, mass-energy equivalence.

II-Nuclear physics

II.1 Nuclear reactions: global properties of the nucleus, theory of direct reactions and formation of compound nuclei.

II.2 Nuclear models: Fermi gas - stability of degenerate Fermi gas, case of self-conjugate nuclei. Layered model: basic formulation, nuclear mean field, some recent developments (residual interactions).

II.3 Collective models: isoscalar vibrations/giant resonances, rotations of deformed nuclei.

II.4 Gamma decay, electromagnetic interaction and nuclei.

II.5 Beta decay, weak interaction and nuclei.

III-Particle physics

III.1 Introduction to particle physics. Short historical introduction, Particle and interaction zoology.

III.2 Special Relativity applied to particle physics. Collisions.

III.3 Symmetries. Discrete and continuous symmetries in particle physics. CPT symmetries. Conservation laws. CP violation. neutrino oscillations

III.4 Interactions. Cross-section & luminosity. Lifetime & Resonances. Application of relativistic Fermi Golden's rule and phase space computation.

III.5 Pedestrian introduction to Feynman diagrams.

III.6 The quark model. Some group theory for particle physics.

Contacts

Responsable pédagogique

MCC

Les épreuves indiquées respectent et appliquent le règlement de votre formation, disponible dans l'onglet Documents de la description de la formation.

Régime d'évaluation
CT (Contrôle terminal, mêlé de contrôle continu)
Coefficient
1.0

Évaluation initiale / Session principale - Épreuves

LibelléType d'évaluationNature de l'épreuveDurée (en minutes)Coéfficient de l'épreuveNote éliminatoire de l'épreuveNote reportée en session 2
Elementary particles
CTET900.50
Nuclear physics
CTET900.50

Seconde chance / Session de rattrapage - Épreuves

LibelléType d'évaluationNature de l'épreuveDurée (en minutes)Coéfficient de l'épreuveNote éliminatoire de l'épreuve
Elementary particles
CTET900.50
Nuclear physics
CTET900.50