| Contents: | |
| 17-18.1.: | Introduction. Natural units. Interactions and their strengths. Brief history of particle physics. | 24-25.1.: | Conservation laws in quantum mechanics. Additive quantum numbers: Q, B=baryon number, L, S, C, B=bottomness. Parity. Intrinsic parity. Charge conjugation. | 31.1-1.2.: | Time reversal. Principle of detailed balance. CPT theorem. Spin statistics. Symmetry groups. SU(2). Isospin. | 7-8.2.: | Mass splittings in isospin multiplets. Prediction of relative reaction rates from isospin information. Resonances and Breit-Wigner formula. G-parity. Group SU(3). The quark model and SU(3)-flavour. Mass differences in SU(3)-flavour multiplets. Colour. | 14-15.2.: | Magnetic moments of baryons. Heavy quarks. Colour factors. Lorentz transformations. Four vectors. | 21-22.2.: | Charge screening - colour antiscreening. Laboratory and cm coordinates. Transformations between laboratory and cm systems. Kinematics of two particle process. Mandelstam variables. Physical region. Crossing. Kinematics of more than two particle final states. Continuity equation. Klein-Gordon equation. Interactions between particles. Fermi's golden rule. | 28-29.2.: | Invariant amplitude. Cross section. Lorentz invariant phase space. Decay rate. Width. Scattering of identical particles. Origin of propagator. | 13-14.3.: | Dirac equation. Conserved current. Plane wave solutions. Helicity. Treatment of antiparticles. Covariant normalization and completeness. Covariance of Dirac equation and continuity equation. | 20-21.3.: | Bilinear Covariants. Massless fermions. Electron-electron scattering in nonrelativistic case. Electron-muon scattering in relativistic case (cm and lab frames). Electron positron annihilation to muon and antimuon. | 27-28.3.: | Photon polarization vectors. Propagators: spin-0, spin-1/2, spin-1. Massive vector boson polarization vectors. Compton scattering. e+e- -> gamma gamma. Structure of hadrons. Form factors. Elastic ep scattering. Inelastic ep scattering. Inclusive cross section. | 3-4.4.: | Structure functions. Partons. Bjorken scaling. Scaling violation. Callan-Gross relation. Parton distribution functions. Weak interactions. Discovery of W and Z. Charged current interaction. | 17-18.4.: | Muon decay. Pion decay. Neutrino-quark scattering. Structure of neutral current. | 24.-25.4.: | Physical photon and Z-boson. Z vertex factor. Quark mixing. GIM-suppression. Gauge symmetries. Noether's theorem. Local gauge invariance: U(1), SU(3). | 2.5.: | Spontaneous symmery breaking. Higgs mechanism. Higgs mechanism in the Standard Model. Gauge boson mass generation. |