NUCLEAR AND SUBNUCLEAR PHYSICS LABORATORY
(objectives)
The course is mainly based on laboratory activities, and is preceded by a series of dedicated classroom lessons to the basic concepts about detectors, trigger systems, signal acquisition in the field of High Energy Physics. The laboratory consists of carrying out a small-scale experiment for measuring the decay of the mu meson.
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Code
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20401811 |
Language
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ITA |
Type of certificate
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Profit certificate
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Credits
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6
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Scientific Disciplinary Sector Code
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FIS/04
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Contact Hours
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20
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Laboratory Hours
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42
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Type of Activity
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Elective activities
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Teacher
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PETRUCCI FABRIZIO
(syllabus)
Topics of the lectures of the first part of the course. a) Subatomic particles and their interactions with matter: - Radioactive sources, cosmic rays and elementary particles; - Ionisation energy loss for heavy charged particles; - Ionisation energy loss for electrons and positrons; - Cherenkov radiation; - Transition radiation; - Multiple coulomb scattering; - Photons interactions; - Pair production and shower development.
b) Particle detectors: - General characteristics of particle detectors; - Ionisation detectors; - Scintillation detectors; - Photomultiplier tubes.
c) Applications: - Measurements of charged particle momenta; - Introduction to particle identification; - Trigger; - Examples of fundamental experiments in particle physics.
All the relevant topics and practical informations needed to operate the particle detectors exploited in the lab will be given during the laboratory practice.
(reference books)
During the lectures slides and additional notes will be circulated.
The recommended textbook is:: (Leo W.R.) Techniques for Nuclear and Particle Physics Experiments [Springer-Verlag]
For an introduction to particle physics and to particle interactions in matter: (Braibant S., Giacomelli G., Spurio M.) Particelle e interazioni fondamentali [Springer] (in Italian)
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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Teacher
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SALAMANNA GIUSEPPE
(syllabus)
Topics of the lectures of the first part of the course. a) Subatomic particles and their interactions with matter: - Radioactive sources, cosmic rays and elementary particles; - Ionisation energy loss for heavy charged particles; - Ionisation energy loss for electrons and positrons; - Cherenkov radiation; - Transition radiation; - Multiple coulomb scattering; - Photons interactions; - Pair production and shower development.
b) Particle detectors: - General characteristics of particle detectors; - Ionisation detectors; - Scintillation detectors; - Photomultiplier tubes.
c) Applications: - Measurements of charged particle momenta; - Introduction to particle identification; - Trigger; - Examples of fundamental experiments in particle physics.
All the relevant topics and practical informations needed to operate the particle detectors exploited in the lab will be given during the laboratory practice.
(reference books)
During the lectures slides and additional notes will be circulated.
The recommended textbook is:: (Leo W.R.) Techniques for Nuclear and Particle Physics Experiments [Springer-Verlag]
For an introduction to particle physics and to particle interactions in matter: (Braibant S., Giacomelli G., Spurio M.) Particelle e interazioni fondamentali [Springer] (in Italian)
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
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Oral exam
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Teacher
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IODICE Mauro
(syllabus)
Topics of the lectures of the first part of the course. a) Subatomic particles and their interactions with matter: - Radioactive sources, cosmic rays and elementary particles; - Ionisation energy loss for heavy charged particles; - Ionisation energy loss for electrons and positrons; - Cherenkov radiation; - Transition radiation; - Multiple coulomb scattering; - Photons interactions; - Pair production and shower development.
b) Particle detectors: - General characteristics of particle detectors; - Ionisation detectors; - Scintillation detectors; - Photomultiplier tubes.
c) Applications: - Measurements of charged particle momenta; - Introduction to particle identification; - Trigger; - Examples of fundamental experiments in particle physics.
All the relevant topics and practical informations needed to operate the particle detectors exploited in the lab will be given during the laboratory practice.
(reference books)
Durante il corso saranno distribuite copia delle slides delle lezioni e note aggiuntive.
Testi consigliati: (Leo W.R.) Techniques for Nuclear and Particle Physics Experiments [Springer-Verlag]
Per una introduzione alla fisica delle particelle e per una esposizione alternativa dell’interazione delle particelle con la materia: (Braibant S., Giacomelli G., Spurio M.) Particelle e interazioni fondamentali [Springer]
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Dates of beginning and end of teaching activities
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From to |
Delivery mode
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Traditional
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Attendance
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not mandatory
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Evaluation methods
|
Oral exam
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