Adaptative Optics (AO) requires fast and precise wavefront control using deformable optical surface (DM) with a large number of actuators. Current commercial DM technologies are efficient but still suffer from limitations in their temporal bandwidth, dynamical range, size, number of actuators, fragility/fatigue, and non-linear effects that need to be overcome for future instruments. Moreover, these DMs have unperfect shape at rest and are costly. We aim to develop a new hybrid high-speed, lightweight, large and low-cost deformable-mirror technology.

The HYperStock project aims at consolidating the French scientific leadership in the field of storage and distribution of hydrogen under high pressure. This is an essential element of the hydrogen value chain on which the research and innovation effort must focus, specifically with an aim at decarbonizing heavy transportation mobility, in order to build up the green and autonomous hydrogen economy of tomorrow.

L'École Universitaire de Recherche MANUTECH SLEIGHT (Surfaces Light EngineerinG Health and SocieTy) ou MANUTECH SLEIGHT Graduate School, coordonnée par l'Université de Lyon et gérée par l'Université Jean Monnet à Saint-Etienne, propose un programme international intégré Formation (niveau Master et Doctorat) / Recherche dans le domaine de l'Ingénierie Lumière-Surfaces.

Ce programme interdisciplinaire mis en œuvre sur 10 ans a pour ambitions de :

La caractérisation fine des matériaux est un prérequis indispensable pour le développement de nouveaux alliages d'avenir aux propriétés améliorées.

H2O'Lyon vise à construire une école de recherche sur les Sciences de l’Eau et des hydrosystèmes.