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John Dudley appointed senior member of the institut universitaire de France

A member of FEMTO-ST's Optics Department and professor at the University of Franche-Comté, John Dudley has been appointed to a Fundamental Chair in senior category of the Institut Universitaire de France

Created in 1991, the IUF's mission is to promote the development of high-level research in universities. Appointment to the IUF is a highly selective distinction that enables its laureates to develop a highly ambitious research programme over a five-year period.

John Dudley is known for his many contributions to the field of non-linear optics, in particular studies on supercontinuum generation, optical instabilities and extreme events.  He has recently launched a major line of research into the application of artificial intelligence techniques to ultrafast optics, and the continuation and extension of this theme will form the basis of his IUF project. His aim is to apply the interdisciplinary concepts of machine learning to the development of new intelligent photonic sources and new approaches to understanding fundamental non-linear dynamics in optics.

Contact :  John Dudley

Official Bulletin of Higher Education and Research

  • Strong involvement of FEMTO-ST in the H2020 project "PhotonHub Europe"

    The objective of this project is to help European SMEs to increase their competitiveness through photonics with a online guidance, which will offer the support of 54 leading competence centers in Europe, including FEMTO-ST, which is also the scientific coordinator at the national level.

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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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