METODI SPERIMENTALI PER LA FISICA NUCLEARE E SUBNUCLEARE

Insegnamento
METODI SPERIMENTALI PER LA FISICA NUCLEARE E SUBNUCLEARE
Insegnamento in inglese
EXPERIMENTAL METHODS FOR NUCLEAR AND SUBNUCLEAR PHYSICS
Settore disciplinare
FIS/04
Corso di studi di riferimento
FISICA
Tipo corso di studio
Laurea Magistrale
Crediti
7.0
Ripartizione oraria
Ore Attività frontale: 49.0
Anno accademico
2019/2020
Anno di erogazione
2019/2020
Anno di corso
1
Lingua
ITALIANO
Percorso
FISICA SPERIMENTALE DELLE INTERAZIONI FONDAMENTALI
Docente responsabile dell'erogazione
SCHIOPPA Enrico junior
Sede
Lecce

Descrizione dell'insegnamento

A good knowledge of classical electrodynamics and special relativity is essential. Basic concepts of quantum mechanics are recommended. Some notions of particle physics might facilitate the comprehension, but are not strictly necessary.Short introduction to modern nuclear and subnuclear physics. Particle accelerators: linear accelerators, cyclotrons, synchrotrons, synchrotron light. Radiation-matter interaction. Particle detectors: transport phenomena, signal formation, gas detectors, scintillators, photomultipliers, semiconductor detectors, other types of detectors. Detector systems: trackers, calorimeters, particle identification, trigger, data acquisition. Hints of statistical methods and data analysis. Examples of experiments in particle physics and astroparticle physics. Examples of applications to nuclear physics.

Short introduction to modern nuclear and subnuclear physics. Particle accelerators: linear accelerators, cyclotrons, synchrotrons, synchrotron light. Semiconductors detectors. Detector systems: trackers, calorimeters, particle identification, trigger, data acquisition. Hints of statistical methods and data analysis. Examples of experiments in particle physics and astroparticle physics. Examples of applications to nuclear physics.

The student acquires the basic knowledge to understand the functioning of the instrumentation and the methods which are typically employed in nuclear and subnuclear physics

Lecture

Prova orale

Short introduction to modern nuclear and subnuclear physics. Particle accelerators: linear accelerators, cyclotrons, synchrotrons, synchrotron light. Semiconductors detectors. Detector systems: trackers, calorimeters, particle identification, trigger, data acquisition. Hints of statistical methods and data analysis. Examples of experiments in particle physics and astroparticle physics. Examples of applications to nuclear physics.

The material of the class references several textbooks and scientific papers. When treating each topic, the teacher will make sure to point the students to the proper literature.

Semestre
Secondo Semestre (dal 02/03/2020 al 05/06/2020)

Tipo esame
Obbligatorio

Valutazione
Orale - Voto Finale

Orario dell'insegnamento
https://easyroom.unisalento.it/Orario

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