Contents
- 1 1. Gauge invariance, large transformations, Wilson loop, Yang-Mills theories, SU(2)
- 2 2. Glashow's model and symmetry breaking
- 3 3. Goldstone's theorem and hidden symetries
- 4 4. Problems R1b
- 5 5-6. Non-abelian hidden symetries and the standard model
- 6 7. Problems R2b
- 7 8. Fermion masses
- 8 9. CP violation
- 9 10. Problems R3b
- 10 11. Feynman rules of the standard model
- 11 12. W and Z production and decay
- 12 13. Problems R4b
- 13 14. SU(3): Lagrangian, Feynman rules, Ghosts, gauge invariance
- 14 15. Inclusive quantities, naïve parton model, Callan-Gross
- 15 16. Problems R5b
- 16 17. Splitting functions
- 17 [18. Evolution ("DGLAP") equations, factorization]]
- 18 19. Problems R6b
- 19 20. Grand unification and SU(5), The hierarchy problem, the vacuum stability problem
2. Glashow's model and symmetry breaking
3. Goldstone's theorem and hidden symetries
4. Problems R1b
5-6. Non-abelian hidden symetries and the standard model
7. Problems R2b
8. Fermion masses
9. CP violation
10. Problems R3b
11. Feynman rules of the standard model
12. W and Z production and decay
13. Problems R4b
16. Problems R5b
[18. Evolution ("DGLAP") equations, factorization]]
19. Problems R6b
References for particles and astroparticles
Problems sets: R1, R2, R3, R4, R5
Questions d'examen: partie théorique