Physical principles and methods of Ion Beam Analysis (IBA) techniques for the study of composition and structure of materials: PIXE - Particle Induced X-ray Emission, PIGE - Particle Induced Gamma-ray Emission, EBS - Elastic Backscattering Spectroscopy, ERDA - Elastic Recoil Detection Analysis, NRA - Nuclear Reaction Analysis. Application of IBA techniques to material science, cultural heritage, environment and geology.
Knowledge acquired:
Applied nuclear techniques with accelerators, in particular Ion Bean Analysis techniques
Competence acquired:
Surface analyisis techniques for structural and compositional studies of materials.
Use of IBA techniques data analysis computer codes
Skills acquired:
Creative thinking in applying material analysis techniques
Teaching Methods
CFU: 6
Total hours of the course: 150
Contact hours for lectures: 48
Further information
Office hours on appointment
Massimo Chiari
Physics dept, Room 201 (I floor)
tel. 0554572273 (int. 2273)
chiari@fi.infn.it
http://labec.fi.infn.it
Type of Assessment
Discussion upon an argument agreed together with the teacher
Course program
- Interaction of charged particles with matter.
- Ion beams generation: electrostatic accelerators and ion sources; transport and diagnostics of accelerated ion beams. Extraction of an ion beam in atmosphere: methods for measuring the intensity of an extracted ion beam.
- The physical principles and methods of Ion Beam Analysis (IBA) techniques for the investigation of the structure and composition of materials, in particular:
PIXE – Particle Induced X-ray Emission
PIGE – Particle Induced Gamma-ray Emission
EBS – Elastic Backscattering Spectroscopy
ERDA – Elastic Recoil Detection Analysis
NRA – Nuclear Reaction Analysis
- Applications of IBA techniques to material science, cultural heritage, environment and geology.
- Practice with IBA simulation and data analysis computer codes.