Brief review of the particle physics concepts relevant to this course.
- The Deep Inelastic Scattering and the Structure of the proton; Quarks and Parton
Distribution Functions.
- QCD. The local gauge principle; Colour; Quarks and Gluons; Colour confinement;
Running of the coupling constant and asymptotic freedom; electron–positron annihilation;
Colour factors; Heavy mesons and the colour potential.
- QCD inspired models: the Monte Carlo generators
- Tests of QCD at lepton colliders; implications of Colour in the final state; jets; observation
of QCD interference effects; fragmentation and hadronization.
- Tests of QCD at hadron colliders; customised jet reconstruction algorithms; the jet crosssections;
the Multiple Parton Interactions (MPI), the Double Parton Scattering (DPS);
Minimum Bias (MB) and Underlying Event (UE) measurements.
- QCD in the interactions of Heavy Ions, the Quark Gluon Plasma (QGP); QCD in the
early universe.
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- Scritto da Super User
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titolo
Course on Quantum Chromodynamics
target
totem,dipartimento,ppim
inizio
Lunedì 12 Febbraio 2018 ore 17:00
luogo
Aula F - Edificio di Fisica
relatore
Prof. Paolo Bartalini (CERN, CCNU)
titoloevento
Quantum Chromodynamics (QCD) - A High Energy Physics point of view
abstract
Main topics:
organizzatori
Prof. Livio Fano'
docsrefs
,1694,