RADIOATTIVITà
It is required that the student have an introductory knowledge of nuclear physics, in particular on the structure of the atomic nucleus, the related models, and phenomena regarding the interaction of ionizing radiation with matter. However, since the formation of students in these areas is varied, depending on laboratories and courses taken, there will be an extensive summary on these subjects, in order to set uniform grounds for the development of the central part of the course.
Finally, it is necessary a good understanding of the English language, at the level required to read the slides that the teacher will use in the lectures (they will be often in English) and the recommended reference books. <\b>
The purpose of the course is to lead the student to acquire a general knowledge, albeit at an introductory level, about the phenomenon known as radioactivity. In addition to the basic physics and the most relevant models that describe it, the course will introduce elements relating to the numerous applications of this phenomenon, in the scientific, industrial and medical fields. The lectures will discuss the biological effects of radiation and will give the student the means to appreciate the impact of both natural and artificial radioactivity. (Descriptor of Dublin: Knowledge and Understanding.)
The course will aim also to develop the critical skills of the student, who will be provided with appropriate concepts and quantitative tools, in a subject where the emotional aspects are notoriously relevant. (Descriptor of Dublin: Making Judgments.)
Finally, the student will get the tools to deepen its knowledge on specific subjects, thanks to the basic knowledge acquired and to the indications provided by the course on where and how to obtain further information. (Descriptor of Dublin: Learning Skill.) <\b>
BASIC ELEMENTS OF RADIATION-MATTER INTERACTION
Interaction of heavy charged particles, fast electrons and gamma radiation with matter
Interaction of neutrons with matter
RADIATION DETECTORS
General features of a detector
Scintillators: operating principles, organic and inorganic scintillators, photodetectors
Semiconductor detectors: band structure of crystalline solids, semiconductor characteristics, doping, p-n junction, p-i-n junction, Ge and Si detectors
Criteria for the choice of a detector
INTRODUCTION TO RADIOACTIVITY
The discovery of radioactivity: a brief history
The periodic table and the table of nuclides, the concepts of isotope, isotone, isobar, radio-isotope
The radioactive decay: alpha decay, beta decay, electron capture and gamma rays
Natural radioactivity:
- primordial radionuclides, natural chains of 238U, 235U, 232Th, concept of transient and secular equilibrium; examples of broken secular equilibrium <\li>
- secondary cosmic radiation<\li>
- cosmogenic radionuclides, in particular 3H, 7Be, 14C <\li>
<\ul>
The radioactivity in the life of every day: typical content of radionuclides in food, in the rocks, in the atmosphereRADIATION PROTECTION PRINCIPLES
Ionizing radiation, LET, damage induced by ionizing radiation
Definitions and units: absorbed dose, equivalent dose
Biological effects of ionizing radiation
The principles of radiation protection and introduction to environmental radiation protection
APPLICATIONS OF RADIATION
Industrial applications
Medical applications of imaging techniques, therapeutic techniques
Scientific applications: examples of the various radionuclide applications in various fields; radiometric dating and radiocarbon method
RADON
Discovery of radon (Rn), chemical characteristics of the Rn, isotopes of Rn
Discovery of the dangerousness of Rn; particulate inhalation and Rn daughters, risk multiplicative factor for smokers
Outdoor radon: sources, typical trends of concentrations, atmospheric profile
Indoor radon: sources, mechanisms of accumulation, chimney effect, interventions for prevention and rehabilitation of housing
Detection of Rn: Rn methodology measurements, active and passive methods, accumulation methods, the problem of Thoron, trace detectors, alpha-card, thermo-luminescence dosimeters, electret, ROAC, ionization chambers and electrometers, solid state detectors, scintillation cells
DETECTORS AND HPGe GAMMA SPECTROMETRY
Importance of gamma spectrometry
The HPGe detectors
Spectrum features: typical structure, photopeak, Compton distribution and backscattering peak, escape peaks, sum peaks
Gamma spectrum analysis
Techniques of low radioactivity measurements:
- problem of environmental radioactivity, characteristics of a good shielding material <\li>
- the Rn as a contaminant in low radioactivity measurements <\li>
- intrinsic radioactivity detector <\li>
- effects of cosmic radiation <\li>
<\ul>NUCLEAR ENERGY
Nuclear fission: model using the Weizsäcker formula for the nuclear mass, the fission barrier, spontaneous fission, induced fission, heat developed in the fission chain reaction, uranium enrichment
The nuclear reactors
Fundamental elements constituting all nuclear reactors, general operating principle of a nuclear reactor, PWR reactors, BWR reactors, HWR reactors, self-breeder reactors, graphite reactors, nuclear fuel cycle, Xenon poisoning
Nuclear Safety and Energy: sources of danger in the use of nuclear energy, radiological hazards, reactor safety systems
The Chernobyl and Fukushima events <\b>
The main part of the course will be based on slides, given the frequent need to show graphics, diagrams and test results and schemes of equipment and devices. A copy of the slides will be provided to students in electronic form before their projection.
Supporting texts, which have a function of consultation as the sldies are sufficient for the preparation of the final test, are the following:
- "Environmental radioactivity" - M.Eisenbud et T.Gesell - Academic Press
- "Practical application of radioactivity and nuclear radiations" - G. C. Lowental et P.L. Airey - Cambridge University Press - ISBN 0521 553059
- "Radioactivity, radionuclides, radiations" - J. Magill et J.Galy - Springer - ISBN 3-540-21116-0
- "Tecniques for nuclear and particle physics experiments" - W.R.Leo - Springer Verlag - ISBN 3-540-57280-5
- "Radiation and radioactivity on earth and beyond" - I.G. Draganic - CRC Press - ISBN 0-8493-8675-6 <\b>