Lecture 1 - Introduction to the course
Lecture 2 - Field content and symmetries
Lecture 3 - Stability of particles vs symmetry
Lecture 4 - Parity
Lecture 5 - Parity violation
Lecture 6 - Charge conjugation
Lecture 7 - CP and CPT symmetries
Lecture 8 - CP violation in weak forces
Lecture 9 - CP violation and time reversal
Lecture 10 - Special lecture: Feynman diagrams
Lecture 11 - More Feynman diagrams
Lecture 12 - Spin and statistics
Lecture 13 - Spinors: Round 1
Lecture 14 - Introduction to group theory
Lecture 15 - Isospin
Lecture 16 - Consequences of isospin
Lecture 17 - Continuous groups
Lecture 18 - Introduction to quantum field theory
Lecture 19 - Action principle
Lecture 20 - Spin-0 fields: zero-point energy
Lecture 21 - Cosmological constant problem
Lecture 22 - Spin-1 fields
Lecture 23 - Proca Lagrangian
Lecture 24 - Maxwell Lagrangian
Lecture 25 - Spin-1/2 fields: Dirac Lagrangian
Lecture 26 - Lorentz group
Lecture 27 - Spinors: Round 2
Lecture 28 - Gauge invariance and QED
Lecture 29 - Non-abelian gauges
Lecture 30 - Asymptotic freedom
Lecture 31 - Standard Model field content
Lecture 32 - The Higgs field
Lecture 33 - Breaking symmetry: Round 1
Lecture 34 - Breaking symmetry: Round 2
Lecture 35 - Goldstone’s theorem
Lecture 36 - Higgs mechanism
Lecture 37 - CKM matrix
Lecture 38 - CKM parameterisation
Lecture 39 - Weak CP violation
Lecture 40 - FCNCs and PMNS matrix
Lecture 41 - Unitarity triangles
Lecture 42 - Neutrino oscillations
Lecture 43 - Oscillation length
Lecture 44 - Atmospheric neutrinos
Lecture 45 - Solar neutrinos and matter effects
Lecture 46 - Neutrino mass ordering
Lecture 47 - Neutrino experiments
Lecture 48 - Particle collider configurations
Lecture 49 - Cross section
Lecture 50 - Deriving 2-to-2 cross section
Lecture 51 - Centre-of-momentum frame cross section
Lecture 52 - Particle decay
Lecture 53 - Proton decay
Lecture 54 - Dimensionality of time and particle decay
Lecture 55 - Scattering without QFT
Lecture 56 - Forward-backward asymmetry
Lecture 57 - Deep inelastic scattering
Lecture 58 - Quark parton model, summary of course
