The particle data listings will be useful. It can be accessed online by the students at Particle Data Group
Chapter 1 ``Overview of particle physics'': Elementary particles and interactions; Baryons and mesons; Weak interactions; More generations.
Chapter 2 ``Relativistic Kinematics'': Lorentz transformation; Implications; Four-vector notation; Energy-momentum four-vector; Examples.
Chapter 3 `` Fields for Free Particles'': Scalars: free fields and propagators; Dirac Fermions: free fields and propagators; Vectors: free fields and propagators;
Chapter 4 ``From Interaction Amplitudes to Observables'': Example of fermion-scalar interaction: perturbative expansion; Wick's theorem and Feynman rules; Observables: decay width and scattering cross section.
Chapter 5 ``QED for leptons'' : Electromagnetic interaction as a U(1) (Abelian) gauge theory (QED); Feynman rules for QED; Calculation of scattering amplitudes and cross sections at tree level for several processes in QED;
Chapter 6 ``QED and the structure of hadrons'': Concept of form factors; e-p -->e-p elastic scattering: proton form factors; e-p -->e-p elastic inelastic scattering; Bjorken scaling and quarks; quark distribution functions; the gluons.
Chapter 7 ``Strong Interactions: Quantum Chromodynamics'': Representations of SU(N); Evidence of 3 colours: e+e---> hadrons; Lagrangian and Feynman rules for QCD; q qbar interactions: colour singlet and colour octet configurations; Tests of perturbative QCD: Drell-Yan, e+e--> 2 jets and the spin of the quark; e+e- --> 3 jets and the spin of the gluon ; Internal symmetries and classification of bound states of strong interactions (hadrons): SU(2) isospin flavour and SU(3) flavour.
Chapter 8 ``Weak Interactions'': Weak decays and parity violation: V-A weak charged currents; W boson as mediator of weak charged currents; Low energy tests: Weak neutral currents: Z0 and the GIM mechanism; CP violation.
Chapter 9 ``Electroweak Unification'': Weinberg-Salam Model of Electroweak Interactions; Spontaneous symmetry breaking; The Higgs Boson;
Chapter 10 ``Experimental Techniques in Particle Physics'': Interaction of particles with matter.
Chapter 11 ``Experiments in Particle Physics'': Summary of some of the classical experiments in particle physics; Overview of some of the presently running and future experiments in particle physics, their detection techniques and their main physics goals;
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