Domaines
Statistical physics
Topological materials, Quantum Transport, Cavity Quantum Electrodynamics
Nanophysics, nanophotonics, 2D materials and van der Waals heterostructures,, surface physicss, new electronic states of matter
Type of internship
Théorique, numérique Description
Explore the frontier of electromagnetic quantum effects in nano systems. One of the most striking predictions of quantum physics is the interaction of the electromagnetic vacuum with atoms and macroscopic bodies. Spectacular manifestations of this interaction are Casimir forces. Enormous progress in force sensing techniques and the fabrication of nano-structures have highlighted impressively the practical relevance of this quantum effect. This intern-ship concerns the use of new theoretical methods to study the interaction of atoms and molecules with nano-structures.
Contact
Thorsten Emig
Laboratory : LPTMS - UMR 8626
Team : Disordered systems, soft matter, interface physics
Team Website
Team : Disordered systems, soft matter, interface physics
Team Website