Hadron Collider Physics S
Code 371BB
Credits 6
Learning outcomes
Fisica delle particelle elementari ai collisionatori adronici, specialmente protone-protone e protone-antiprotone. Lo studio delle interazioni tra quark e gluoni, costituenti del protone, ha permesso molte scoperte fondamentali nella fisica delle particelle quali la scoperta del bosoni intermedi W e Z , quark top e del bosone di Higgs.. Saranno presentati i principali risultati ottenuti agli collisionatori ri ISR, SPS collider, Tevatron e LHC insieme a una discussione delle prospettive future.
Elementary particle physics at the hadronic colliders , proton-proton and proton-antiproton. The study of the quark and gluon interactions, which are the proton constituents, have provided many fundamental discoveries in particle physics such as the discovery of bosons W, Z, top-quark and Higgs. A review of the results obtained at the accelerators: ISR, SPS collider and Tevatron and LHC is presented together with a discussion on the future perspectives
Elementary particle physics at the hadronic colliders , proton-proton and proton-antiproton. The study of the quark and gluon interactions, which are the proton constituents, have provided many fundamental discoveries in particle physics such as the discovery of bosons W, Z, top-quark and Higgs. A review of the results obtained at the accelerators: ISR, SPS collider and Tevatron and LHC is presented together with a discussion on the future perspectives