1. [I]nfo
  2. [M]oduli
  3. [B]acheca
  4. [P]rogramma
  5. [O]rari
  6. [E]sami
  7. E[v]enti
  8. [F]iles

Generali:

  • Dipartimento: Scienze Matematiche, Fisiche E Naturali
  • Settore Ministeriale: FIS/03
  • Codice di verbalizzazione: 8066818
  • Metodi di insegnamento: Frontale
  • Metodi di valutazione: Orale
  • Prerequisiti: Basic notions of condensed matter, quantum theory and theory of scattering.
  • Obiettivi: LEARNING OUTCOMES: The course of study aims at providing advanced preparation of Neutron Physics and Applications - with knowledge of specialized research topics on materials and biomaterials that take place at Research Neutron Infrastructures (ISIS, ILL, SNS, ESS, etc ..) - and design of neutron instrumentation (beam lines): properties of neutrons and of the main neutron sources, of components (nameplates, moderators, guides) and of experimental lines; knowledge of neutron and the main neutrons sources properties, of the components (targets, moderators, guides) and experimental lines; understanding of the theory about elastic and inelastic slow neutron scattering and of the theory about inelastic scattering of fast neutrons (the eV and MeV); knowledge of slow and fast neutron scattering applied to the study of condensed matter and materials: X-ray (imaging) and neutron tomography, Soft Error in electronic devices caused by interaction with atmospheric neutrons; residual bulk stresses study in materials and in artifacts of historical and artistic interest. KNOWLEDGE AND UNDERSTANDING: Students must have an in-depth understanding of the basic concepts and the most important theories of neutron diffusion and design of components of neutron beam lines and related experimental problems. The verification of knowledge and understanding is done through hands on and oral tests. APPLYING KNOWLEDGE AND UNDERSTANDING: Students must be able to identify the essential elements of an even complex neutron diffusion experiment, be able to model it and propose experimental solutions to make it happen. Students must be able to adapt existing models to new experimental data. COMMUNICATION SKILLS: Students must be able to communicate their knowledge acquired during the course in a clear, correct and unambiguous way. Students must be able to work in an interdisciplinary group and present their research or the results of a bibliographic search to an audience of both specialists and non-specialists. This aspect will be promoted by dedicating 10-15 minutes of each lesson to the revision, and to the possible clarification, of the concepts acquired during the previous lesson and stimulating the students to participate in a class discussion. LEARNING SKILLS: The student must have acquired adequate skills for the further development and deepening of skills in the area of neutron diffusion and instrumentation through consultation of databases and available scientific literature. Students must be able to tackle new fields through independent study. They must acquire the ability to continue their studies in a research doctorate and / or specialization schools and / or at work. The assessment of learning ability is evaluated during lessons and during oral exams. AUTONOMY OF JUDGMENT: Students must be able to independently perform experiments, calculations or numerical simulations. Develop the ability to perform bibliographic searches and to select interesting materials, in particular on the web. They must be able to take responsibility for both project planning and facility management. Having achieved an adequate level of ethical awareness in research and in professional activities. These skills are acquired during the study for the preparation of the exams, deepening some specific topics also with the consultation of articles in journals.

Didattica:

  • A.A.: 2023/2024
  • Canale: UNICO
  • Crediti: 6
  • Obbligo di Frequenza: No
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