| M. Agamalian | Dynamical Diffraction-principles of USANS |
| F. Aliotta | Inelastic and quasielastic neutron scattering: correlation functions |
| C. Andreani, G. Gorini, R. Senesi | Principles and methods of Neutron Spectroscopy at the eVenergies: a) Deep and High Energy Inelastic Neutron Scattering; b) Novel detection concepts for High Energy Inelastic Neutron Scattering; c) Experimental results in Deep and High energy Inelastic Neutron Scattering: quantum fluids, molecular and complex systems |
| A. Botti | Investigating the physics of liquids and amorphous systems: the role of elastic neutron scattering |
| C. J. Carlile | Neutron instrumentation: operation principles and overview of inelastic neutron scattering spectrometers |
| L. Gagliardi | Sinergy between experiments and computational methods |
| R. K. Heenan | SANS: Particle Scattering and model fitting |
| F. Lo Celso | Aggregation phenomena in supercritical fluids |
| S. Magazù | Inelastic and quasielastic neutron scattering |
| R. A. Marcus | Sinergy between experiments and computational methods |
| R. May | Biological Samples and polarised Neutrons |
| P. Radaelli | Powder Diffraction and Magnetic Diffraction |
| M. A. Ricci | Neutron scattering in the static approximation: from the principle to the experiment. Selected topics in the physics of liquids and amorphous systems |
| F. Sacchetti | Physics of neutron and Neutron scattering Cross Sections. Correlation functions in incoherent scattering and molecular spectroscopy. |
| D. Schwahn | Combining SANS and USANS |
| R. Triolo | Applications of Combined SANS and USANS techniques to Archaeological & Cultural Heritage Science and to Material Science |
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