The main goal of this course is to present the different regimes of electronic transport in conductors and how quantum mechanical effects affect their resistance or conductance.

The main goal of this course is to cover the physics of light-matter interaction in the context of quantum devices, and materials at the nanoscale. This UE features both theoretical aspects in lectures and tutorials - possibly based on the analysis and discussion of recent research papers - and experimental projects (12h) on research grade experiments at the end of the semester. 

The main goals of this course are to cover the fundamentals of the electronic properties of solids, and to provide the conceptual basis of selected modern experimental techniques used to investigate such properties.

This course gives an introduction to a choice of topics in condensed matter theory.