* An introduction to QFT*

* Scalar Fields*

** Action principle**

** Relativistic scalar fields**

** Invariance and conservation laws**

** Lie Groups and internal symmetries**

** Canonical quantization**

** Quantum symmetries**

** Green functions**

** Interacting fields and scattering**

** Functional integrals and perturbation theory**

** Wick theorem**

** LSZ formalism**

** Feynman diagrams and rulesn**

** Scattering and cross-sections**

** S matrix**

* Spin*

** Lagrangians and equations**

** Vector fields and Lagrangians**

** Interazioni ed invarianze di gauge locali**

** Spin and canonical quantization**

** Massive solutions**

** Massless solutions**

** Fermionic functional integrals**

** Fermions in external fields**

** Gauge theories and ghosts**

** Reduction formulae and cross-sections**

* Field Theory I - Renormalization*

* Advanced QFT*

* Introduction to Renormalization*

** Loops, regularization and unitarity**

** One-loop examples**

** Wick rotation**

** Dimensional regularization**

** Unitarity and cutting equations**

** Mass renormalization**

** Power counting e renormalizability**

** Two-loop renormalization and beyond**

** Renormalization group and KS equation**

** Gauge theories at one loop**

* Applications*

** Renormalization and unitarity in QED**

** Ward identities and S matrix in QED**

** Ward identities and S matrix in QCD**

** Renormalization schemes**

** Muon decay and charged currents**

** Neutrino-electron scattering at one loop**

** Renormalization theorems**

* MSM renormalization*

** Spontaneous symmetry breaking and masses**

** Higgs mechanism**

** The Minimal Standard Model**

** Evolution of coupling constants in QCD**

** Renormalization of the MSM**

** BRS transformations**

** Anomalies**