The program deepens the knowledge of basic elements of modern physics (atomic and molecular physics, solid state physics, nuclear and particle physics) and of theoretical physics (analytical mechanics, quantum mechanics, mathematical and numerical methods). It is possible to strengthen the knowledge of specific fields like biophysics, nanoscience, quantum information, condensed matter physics, nuclear and particle physics, physics of the fundamental interactions. Finally, the program provides direct experience of the laboratory techniques and computer calculation techniques and data analysis.
The graduate in Physics will know and understand the most relevant phenomena of the physical world at different scales, starting from the macroscopic world down to the atomic physics, the physics of condensed matter, nuclear and subnuclear physics. The understanding of the physical world will be based on experimental evidence and proper use of theoretical modelling and its mathematical instruments, including numerical techniques.