This note covers the following topics: Units and dimensions,
Antiparticles, Dirac’s picture of vacuum, Feynman diagrams, Exchange of a
massive boson, Leptons, quarks and hadrons, Experimental methods, QCD, jets and
gluons, Space-time symmetries, Hadron quantum numbers, Quark states and colours,
Weak Interactions: W and Z bosons, Electroweak unification, Charge conjugation
and parity.
Topics covered in this lecture notes are :
Quantum Field Theory, Strong interactions: Quantum Chromodynamics, Electroweak
interactions: The Standard Model of Particle Physics, Beyond the renormalizable
Standard Model, Drawbacks of the Standard Model.
Author(s): Instituto de Física da
Universidade de São Paulo, Brasil
This note
explains the following topics: electron, photon, neutron, Strange particles,
particle decays and interactions, The fundamental importance of symmetries,
conservation laws, Particles of the Standard Model, The Higgs Mechanism ,
symmetry breaking.
This note covers the
following topics: Concepts of Quantum Field Theory and the Standard Model,
Construction Of The Standard Model, One Generation of Leptons and Quarks,
Fermion Masses, Three Generations of Quarks and Lepton, The Structure of the
Strong Interactions, Phenomenology of the Strong Interactions, Topology of Gauge
Fields, The Strong CP-Problem.
This note addresses current research
topics in particle and astroparticle physics, and focuses on aspects of current
and future experiments in the area. It consists of 2 major parts: Current
Front-line Research, and Experiments and Methods, representing 7.5 ECTS credits
together.
This
note covers the following topics: standard model qualitatively, review of QM and
relativity, symmetries, Feynman toy model, quantum electrodynamics, quantum,
electroweak interaction, the standard model, if time selected applications in
new physics.
This note explains the
following topics: Elementary particles, Fermions and bosons, Particles and
anti-particles, Scattering experiments, A role model: Quantum electrodynamics,
Invariances and quantum numbers, Strong interactions, Weak interactions, Beyond
the standard model.
This note covers the following topics: Units and dimensions,
Antiparticles, Dirac’s picture of vacuum, Feynman diagrams, Exchange of a
massive boson, Leptons, quarks and hadrons, Experimental methods, QCD, jets and
gluons, Space-time symmetries, Hadron quantum numbers, Quark states and colours,
Weak Interactions: W and Z bosons, Electroweak unification, Charge conjugation
and parity.
This note covers the following topics: General
Principles, Symmetries and Invariants, QED, Hard Scattering Processes, Precision
Electroweak physics and Big Bang Cosmology.