Contents
- 1 1. Gauge invariance, relation with GR, large transformations, Wilson loop.
- 2 2. Yang-Mills theories, SU(2), SU(3)
- 3 3. The idea of renormalisation and its consequences
- 4 4. Problems R1
- 5 4. SU(3): Lagrangian, Feynman rules
- 6 5. Ghosts, gauge invariance
- 7 7. Problems R2
- 8 8. Inclusive quantities, naïve parton model, Callan-Gross
- 9 9.a Splitting functions
- 10 9.b Evolution ("DGLAP") equations, factorization
- 11 10. Problems R3
- 12 11. Glashow's model and symmetry breaking
- 13 12. Goldstone's theorem and hidden symetries
- 14 13. Non-abelian hidden symetries and the standard model
- 15 14. Problems R4
- 16 15. Fermion masses
- 17 16. CP violation
- 18 17. Feynman rules of the electroweak part of the standard model
- 19 18. Problems R5
- 20 19. W and Z production and decay
- 21 20. Problems R6-PA
4. Problems R1
7. Problems R2
10. Problems R3
11. Glashow's model and symmetry breaking
notes
12. Goldstone's theorem and hidden symetries
13. Non-abelian hidden symetries and the standard model
notes for lectures 12 and 13
14. Problems R4
notes
15. Fermion masses
notes
16. CP violation
17. Feynman rules of the electroweak part of the standard model
notes
18. Problems R5
notes
19. W and Z production and decay
notes 1
notes 2
20. Problems R6-PA
notes
References for particles and astroparticles
Problems sets: R1, R2, R3, R4, R5, R6-PA
Questions d'examen: partie théorique
2022 take-home exam