Università Roma Tre

SECTION B
- Elements of statistical analysis applied to particle physics experiments
- Experiments and results at LEP
- Higgs boson searches and mentions of BSM searches at colliders
- Examples of experimental neutrino physics and Dark Matter searches
- b-jet identification and top quark measurements
- Complex detectors: magnetic spectrometers, particle identification, large detectors
- Scintillators and optical devices (PMT, APD, SiPM). Solid state detectors. Multi-wire proportional chambers.
- E.m. and hadronic calorimetry
- Trigger systems and menucs at modern experiments
- ROOT analysis software tutorial

TEXTS:
(Leo W.R.)Techniques for Nuclear and Particle Physics Experiments [Springer-Verlag 1994]
(Perkins D.H.)Introduction to High Energy Physics, 4th edition, [Cambridge University Press, 2000]
(Cahn R.N. and Goldhaber G.)The experimental Foundations of Particle Physics [Cambridge University Press, 1989]
(Halzen F., Martin A.D.) Quarks and leptons [Wiley]

Additional slides and papers will be uploaded on the Course web page

SECTION B
- Elements of statistical analysis applied to particle physics experiments
- Experiments and results at LEP
- Higgs boson searches and mentions of BSM searches at colliders
- Examples of experimental neutrino physics and Dark Matter searches
- b-jet identification and top quark measurements
- Complex detectors: magnetic spectrometers, particle identification, large detectors
- Scintillators and optical devices (PMT, APD, SiPM). Solid state detectors. Multi-wire proportional chambers.
- E.m. and hadronic calorimetry
- Trigger systems and menucs at modern experiments
- ROOT analysis software tutorial

(Leo W.R.)Techniques for Nuclear and Particle Physics Experiments [Springer-Verlag 1994]
(Perkins D.H.)Introduction to High Energy Physics, 4th edition, [Cambridge University Press, 2000]
(Cahn R.N. and Goldhaber G.)The experimental Foundations of Particle Physics [Cambridge University Press, 1989]
(Halzen F., Martin A.D.) Quarks and leptons [Wiley]

Additional slides and papers will be uploaded on the Course web page

SECTION A
a) intro and formal tools:
- Relativistic equations, selection rules, cross sections and resonances
- Invariance principles and conservation rules, continuous and discrete transformations, Parity, Charge conjugation, Time inversion

b) early phenomenology, hadrons:
- Strong isospin, Strangeness. Pion isospin and its expt. determination
- Dalitz plots and their interpretation. Theta-tau puzzle.
- Quark model, mentions
- Parton model, quark and anti-quark density

c) Electro-weak interactions, decays, flavour mixing
- Hamiltonian and phenomenology of weak interazions. Experimental constraints from Wu (P violation) and Goldhaber (neutrino helicity)
- Cabibbo angle, GIM mechanism. Discovery of the charm quark and tau lepton. The 1974 "November revolution"
- Standard model of electro-weak interactions and their experimental confirmations: discovery of neutral currents, Gargamelle expt. W and Z bosons discovery and UA1,2
- CP violation, meson mixing. Mentions to B-factories and measurement of CKM angles from B mesons
- Evolution of events at hadronic colliders, parton shower, jet alorithms and related measurements
- Neutrino physics from the Fermi theory to the current day: particularly neutrino oscillations

d) QCD: anatomy and at work at modern colliders:
- QCD, colour, gluons, confinement, DIS
- Evolution of events at hadron colliders, parton showers, algorithms, measurements with jets at Tevatron.

e) Intro to experimental tools, also useful for theorists
- Radiation - matter interactions. Basics of particle detection techniques

TEXTS:
(Leo W.R.)Techniques for Nuclear and Particle Physics Experiments [Springer-Verlag 1994]
(Perkins D.H.)Introduction to High Energy Physics, 4th edition, [Cambridge University Press, 2000]
(Cahn R.N. and Goldhaber G.)The experimental Foundations of Particle Physics [Cambridge University Press, 1989]
(Halzen F., Martin A.D.) Quarks and leptons [Wiley]

Additional slides and papers will be uploaded on the Course web page

SECTION A
a) intro and formal tools:
- Relativistic equations, selection rules, cross sections and resonances
- Invariance principles and conservation rules, continuous and discrete transformations, Parity, Charge conjugation, Time inversion

b) early phenomenology, hadrons:
- Strong isospin, Strangeness. Pion isospin and its expt. determination
- Dalitz plots and their interpretation. Theta-tau puzzle.
- Quark model, mentions
- Parton model, quark and anti-quark density

c) Electro-weak interactions, decays, flavour mixing
- Hamiltonian and phenomenology of weak interazions. Experimental constraints from Wu (P violation) and Goldhaber (neutrino helicity)
- Cabibbo angle, GIM mechanism. Discovery of the charm quark and tau lepton. The 1974 "November revolution"
- Standard model of electro-weak interactions and their experimental confirmations: discovery of neutral currents, Gargamelle expt. W and Z bosons discovery and UA1,2
- CP violation, meson mixing. Mentions to B-factories and measurement of CKM angles from B mesons
- Evolution of events at hadronic colliders, parton shower, jet alorithms and related measurements
- Neutrino physics from the Fermi theory to the current day: particularly neutrino oscillations

d) QCD: anatomy and at work at modern colliders:
- QCD, colour, gluons, confinement, DIS
- Evolution of events at hadron colliders, parton showers, algorithms, measurements with jets at Tevatron.

e) Intro to experimental tools, also useful for theorists
- Radiation - matter interactions. Basics of particle detection techniques

(Leo W.R.)Techniques for Nuclear and Particle Physics Experiments [Springer-Verlag 1994]
(Perkins D.H.)Introduction to High Energy Physics, 4th edition, [Cambridge University Press, 2000]
(Cahn R.N. and Goldhaber G.)The experimental Foundations of Particle Physics [Cambridge University Press, 1989]
(Halzen F., Martin A.D.) Quarks and leptons [Wiley]

Additional slides and papers will be uploaded on the Course web page