ME-469: Nano-scale heat transferIn this course we study heat transfer (and energy conversion) from a microscopic perspective. First we focus on understanding why classical laws (i.e. Fourier Law) are what they are and what are their
CH-443: Photochemistry IIFollowing "Photochemistry I", this course introduces the current theoretical models regarding the dynamics of electron transfer. It focuses then on photoredox processes at the surface of solids. Curre
PHYS-511: Electron spectroscopySeries of lectures covering the use of electron spectroscopy for the study of the electronic and atomic structure of surfaces, nanostructures, and quantum materials. Special attention is given to vari
PHYS-724: Ultrafast PhenomenaThe course will cover fundamental concepts and recent developments in the field of ultrafast spectroscopy and introduce the basic theory to understand ultrafast (10-16 - 10-9 s) phenomena in chemistry
CH-360: Atoms and radiationThis course discusses the interaction between atoms and visible electro-magnetic radiation and introduces the main instrumentation for light detection and spectroscopy. The principles of LASER light s
CH-444: Electronic spectroscopyThis course focuses on the electronic structure of atoms, diatomic and polyatomic molecules in order to understand their ultraviolet-visible absorption and photoelectron spectra.
PHYS-449: Optics IIIRéaliser un système d'optique complexe. Comprendre l'interaction de la lumière avec la matière en optique nonlinéaire et optique pulsé. Comprendre les méthodes de génération, d'amplification e de comp
