Domaines
Condensed matter
Low dimension physics
Nouveaux états électroniques de la matière corrélée
Nanophysics, nanophotonics, 2D materials and van der Waals heterostructures,, surface physicss, new electronic states of matter
Type de stage
Expérimental Description
In the recent years, the study of 2D materials such as the transition metal dichalcogenides (TMD) has led to the discovery of novel quantum states of matter. However, the fabrication of these materials often leads to small samples (~um) which can limit the range of tools used for their study and applications. This is the case of terahertz (THz) spectroscopy which, though limited by diffraction (~300 um), would be a powerful tool because the THz frequency range lies in the same energy range as many electronic excitations in these quantum materials.
In this Master project, we propose to develop a method to perform spectroscopy on micrometer scale 2D materials beyond the current diffraction limitation of standard THz spectroscopy. This new technique uses “on-chip” generation and detection of THz pulses and will allow the candidate to study NbSe2, an exotic SC hosting simultaneously SC and a charge-density-wave (CDW) state. NbSe2 samples will be progressively exfoliated and measured down to the ultimate monolayer 2D limit. These already unprecedented results will pave the way for a PhD thesis for which the candidate will implement pump-probe “on-chip” THz spectroscopy, investigating the dynamics and interaction of the Higgs and CDW modes when driven far away from equilibrium and the possibility of inducing long-lived metastable SC states in this system.
Contact
Romain Grasset
Laboratoire : Laboratoire des solides irradiés - UMR 7642
Equipe : New electronic states - TeraX-lab
Site Web de l'équipe
Equipe : New electronic states - TeraX-lab
Site Web de l'équipe