Elements of Optics and Nuclear Physics
A.Y. 2019/2020
Learning objectives
The aim of the course is to provide students with a framework of the main optical and nuclear physics phenomena that are exploited in various technical and physical methods used for the study of cultural heritages. Particular emphasis is given to luminescence dating techniques of ceramic samples
Expected learning outcomes
Theoretical skills of luminescence dating techniques.
Knowledge of the main methods of detection of ionizing radiation.
Knowledge of the main methods of detection of ionizing radiation.
Lesson period: year
Assessment methods: Esame
Assessment result: voto verbalizzato in trentesimi
Single course
This course cannot be attended as a single course. Please check our list of single courses to find the ones available for enrolment.
Course syllabus and organization
Single session
Responsible
Lesson period
year
Course syllabus
· Chart of Nuclides
· Radioactive decay
· Types of decay (alpha, beta, gamma)
· Natural and artificial radioactivity
· Cyclotron and mass spectrometer
· Basis of radiation-matter interaction
· Radiation detection methods and instrumentation
· Gamma spectrometry
· Dose, natural dose rate, assessment methods
· Luminescence: Thermoluminescence (TSL) and Optically Stimulation Luminescence (OSL)
· Application of TSL and OSL techniques for dating: procedures and examples
· Basic knowledge of Nuclear Magnetic Resonance (NMR) and correlated instruments
· Surface effects evaluation by means of NMR
· Magnetic Resonance Imaging
· Surface-fluids interaction properties: Surface tension, Wettability, Capillarity
· Porosity and NMR studies of porosity
· MR applications for the study of porous materials of interest to Cultural Heritage
· Electromagnetic waves
· Geometrical Optics
· Wave Optics
· Optical Instruments
· Examples and exercises on the various covered topics
· Radioactive decay
· Types of decay (alpha, beta, gamma)
· Natural and artificial radioactivity
· Cyclotron and mass spectrometer
· Basis of radiation-matter interaction
· Radiation detection methods and instrumentation
· Gamma spectrometry
· Dose, natural dose rate, assessment methods
· Luminescence: Thermoluminescence (TSL) and Optically Stimulation Luminescence (OSL)
· Application of TSL and OSL techniques for dating: procedures and examples
· Basic knowledge of Nuclear Magnetic Resonance (NMR) and correlated instruments
· Surface effects evaluation by means of NMR
· Magnetic Resonance Imaging
· Surface-fluids interaction properties: Surface tension, Wettability, Capillarity
· Porosity and NMR studies of porosity
· MR applications for the study of porous materials of interest to Cultural Heritage
· Electromagnetic waves
· Geometrical Optics
· Wave Optics
· Optical Instruments
· Examples and exercises on the various covered topics
Website
FIS/03 - PHYSICS OF MATTER
FIS/04 - NUCLEAR AND SUBNUCLEAR PHYSICS
FIS/04 - NUCLEAR AND SUBNUCLEAR PHYSICS
Lessons: 72 hours
Shifts:
Professor(s)