-
(photons) and matter excitations (excitons), inheriting properties from both: they can propagate at speeds close to those of photons while exhibiting much stronger nonlinearities. The demonstration of robust
-
the strong light-matter coupling, giving rise to the formation of exciton-polaritons, which are the quasi-particles providing interactions in this system. Carry out theoretical research in topological physics
-
, preferably with experience in using tensor networks for condensed matter systems. Desired skills: - Knowledge of tensor networks. Experience with their application to two-dimensional systems will be valued
-
criteria Advanced expertise in experimental quantum optics Strong knowledge of the physics of semiconductor quantum dots Background in light–matter interaction and cavity quantum electrodynamics Website
-
Research FieldChemistry » Organic chemistry Additional Information Benefits Net salary ~ 2200 €/month Contract period: 18 months Selection process Application - Detailed CV - Short research summary - Cover
-
Join Our Team Would you like to help crack the secrets behind high-temperature superconductivity and explore exotic states of matter like quantum spin liquids? We are seeking a bold and curious
-
internet. Using an interdisciplinary approach that includes Indology, anthropology, sound studies, media studies, art history, and the history of religions, the project will create comprehensive sonic
-
matter physics enriched by interdisciplinary activities at the interfaces with chemistry, engineering and biology. The laboratory is related to the CNRS Physique. It is located in the heart of a unique
-
the presentations and reports required by the project Created in 1995, the Bordeaux Institute of Condensed Matter Chemistry (ICMCB) focuses its research on Solid State Chemistry, Materials Science and Chemistry and
-
Inria, the French national research institute for the digital sciences | Villeneuve la Garenne, le de France | France | 5 days ago
of the material’s properties, or (ii) a local alteration of the material’s integrity (loss of matter, up to a through bore). The presence of defects within the conductive material may incidentally lead