Search for a funded project
Control of molecular organization in solid state from strong halogen, chalcogen and pnictogen bonds – Sigma-Hole
r Chemistry, Crystal Engineering and Material Science, sigma-hole interactions, are much less understood
Control of molecular processes in contact with an environment – CoMoc
dissipative quantum systems by lasers is an emerging science promising to a wide range of applications in the
Control of synaptic transmission by astroglial connexin 30: molecular basis and impact for pathological network activity – AstroConSyn
Astrocytes play a key role in cerebral physiology by dynamic interactions with neurons. The project AstroConSyn proposes to elucidate the role of connexin30, a subunit of astroglial gap junction channels involved in cognitive processes, in normal and pathologic neuronal activity.
Control theory for neural synchrony: modeling based on optogenetics data, anda closed-loop alteration of pathological brain oscillations – SYNCHNEURO
Analysis of pathological brain oscillations onset based on optogenetics data and design of closed-loop stimulation signals
Control theory tools for Optimal Design of piezoelectric Energy Harvesters devoted to birds Tracking devices – CODE-Track
demonstrator during the yearly event fête de la science at ENIT in Tarbes, creation of 2 courses on « energy
Controling And Manipulating ELEctronic Orders on the Nanoscale – CAMELEON
permanent researchers at the Chinese Academy of Sciences (CAS). The equipment needed to fulfill this project
Controling EPR and Bell correlations in atomic Bose-Einstein condensates – CEBBEC
We combine, quantum information theory, Bose-Einstein condensates and atom interferometry to create, detect and exploit Einstein-Podolsky-Rosen and Bell entanglement in Bose-Einstein condensates. These represent much stronger forms of entanglement than the correlations created so far and are largely unexplored. Our purpose is both to gain a deeper understanding of quantum information in many body systems as well as to develop practical approaches for manipulating and exploiting it.
Controlling ELECTROnic phase transitions in molecular materials by non-linear PHONonics – ELECTROPHONE
Electronique phase transitions in molecular materials controlled by non-linear phononic
Controlling Open Quantum Systems: A challenge for future quantum technologies – COQS
different environments from new materials to life science structures, well beyond the field of atomic and
Controlling Self and the Other under Emotional Tension, Resources Restrictions and Stress – Masters
Led by a transdisciplinary consortium (computer sciences, HCI, mechanics, mathematics, philosophy, psychology