Joint laboratories CNRS-Companies 2021

FEMTO-ST and AUREA Technology honored at the LAB COM CNRS event in Paris on November 29 and 30

On the occasion of the creation of its 200th joint laboratory, the CNRS organizes the LABCOM event to discover the results of research conducted jointly by teams of scientists and engineers from units under the CNRS supervision and companies.

The joint laboratories, which bring together major groups, ETIs, SMEs and start-ups, and rely on flexible collaboration structures, conduct ambitious research to position themselves on major issues and imagine the industry of the future: sustainable development, the industry of the future, mobility, health, or the exploration of new technological frontiers.

The LABCOM launch event, in the presence of Mrs. Frédérique Vidal - Minister of Higher Education, Research and Innovation, will be an opportunity to celebrate the 200th joint laboratory and will take place at the end of the day on November 29 (Palais Brongniart – Paris).

On November 30, 2021, 15 joint CNRS-company laboratories will be present at the LABCOM showroom (Palais Brongniart - Paris 2nd), including FEMTO-ST / Auréa Technologies in the "new technological frontiers" category. Each team will present the mutual contribution of their collaboration in the framework of their partnership.

On this occasion, FEMTO-ST and AUREA Technology will present the technologies developed in the framework of their joint activity, which focuses on developing innovative applications using the quantum properties of light in fields ranging from telecoms to medical applications and space.

Contact: Jean-Marc MEROLLA

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First demonstration of self-confined nonlinear waves in plasmonic structures
By providing the very first experimental evidence of the existence of this phenomenon, FEMTO-ST researchers and their partners hope to be able to generate this nonlinear effect using low intensity laser sources, in order to use it for nanophotonics applications.
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Mengjia Wang receives the « Chinese government award 2020 »
As a PhD student of the Optics Department of FEMTO-ST , Mengjia Wang has been recognized by the Chinese Government for his outstanding work in the field of nanophotonics and plasmonics.
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Laurent LARGER named Fellow 2021 of OSA
Full professor of Physics/Optics at the University of Franche-Comté and researcher at FEMTO-ST institute, Laurent Larger is rewarded for his pioneering work on nonlinear dynamics in optoelectronics and on the development of new architectures for photonic artificial intelligence.
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CNRS "Proof by Image" competition
Discover the selection of the 20 images selected by the CNRS, one of which is presented by FEMTO-ST, and vote for the "audience award" photo.
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Imaging quantum interference of entangled photon pairs of extremely high dimensionality
Researchers from the Optics Department have developed an imaging device allowing the spatial and temporal resolution of the phenomenon of quantum interference between pairs of entangled photons of extremely high dimensionality.
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Fei GAO Receives IEEE J.D. Irwin Early Career Award
As a member of the SHARPAC team and Deputy Director of FEMTO-ST, Fei Gao has been recognized by the IEEE IES Society for his outstanding work in improving the reliability of hydrogen electric powertrains.
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Daniel HISSEL, winner of the CNRS 2020 Innovation Medal
Full professor at the University of Franche-Comté, researcher at FEMTO-ST Institute and co-founder of a start-up on efficient hydrogen fuel cells, Daniel HISSEL is one of the four national winners of the CNRS 2020 Innovation Medal.
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A new source of infrared light thanks to fibre optic cascades
Scientists from FEMTO-ST Institute and McGill University (Montreal, Canada) have designed and developed in collaboration with three French companies a light source covering the entire mid-infrared wavelength range: from 2 to 10 µm.
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Topological crystals to guide waves on the water surface
Topological crystals have the property of being conductive on their surface, but insulating in their volume which allows very efficient wave guidance by engineering the structure of these materials, generally arranged in a hexagonal symmetry, inspired by the graphene.
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An innovative solution to detect pollutants in the subsoil
Researchers from FEMTO-STinstitute and the company TOTAL SA have succeeded in detecting organic pollutants with methods that did not require sampling and have been able to monitor the evolution of the pollution of the subsoil over periods ranging up to several years.
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