Content

Research areas

 

 

  • Multifunctional photonics materials
  • Optical instrumentation
  • Quantum nanodevices
  • Hybrid plasmonic-photonic integrated circuits

Relaying on the development of complementary expertise*, the research conducted in the photonics and nanooptics group can be summarized as follow:

  • Expertise:
    • Numerical simulation: FDTD, RCWA, FEM
    • Optical instrumentation: Heterodyne type scattering NSOM, multiscale near field probing.
    • Nanostructuration (Nanofab facility) and elaboration (soft techniques)
  • Projects:

 

secondary content

  • Photonic materials
  • Optical instrumentation
  • Quantum nanodevices
  • Integrated photonics

GDR ondes Workshop

From June 1, 2016 to June 2, 2016

Les Journées Plasmonique Non-linéaire & Quantique auront lieu le 1 et 2 juin 2016 sur le Campus Saint-Charles à Marseille.

Program: Program GDR ondes 2016

The 14th International Conference on Near-Field Optics, Nanophotonics, and Related Techniques (NFO-14).

NFO-14

From October 18, 2015 to October 20, 2015

NFO-14

 IMPORTANT DATES & DEADLINES

Early registration:
June 30, 2016

NFO-14 conference:
September 4-8, 2016
-9/4 NFO School, Reception
-9/5 Keynote talks
-9/8 Excursion, Banquet

 

Link: http://nfo-14.org

Closing Ceremony of the International Year of Light and Light based Technologies 2015.

Feb. 4-6, 2016, Merida, Yucatan, Mexico

From February 4, 2016 to February 6, 2016

IYL 2015

Closing ceremony

http://www.iyl2015closing.org

RENATECH's thesis prizes 2015 for Komla NOMENKO

Komla NOMENYO will bee awarded by the French National nanofabrication network (RENATECH) in october 2015 for his work on “ ZnO based UV photonics : Enhanced emission and energy transfer through top-down micro and nanostructuring ” 
At the LNIO, Institut Charles Delaunay (CNRS UMR 6281, UT Troyes).

 

Congratulations Komla!

 

Link: RENATECH news

Actualités scientifiques de l'INSIS

From April 15, 2015 to April 15, 2015

Nanofocusing nanodevice

Des chercheurs ont obtenu la super-focalisation d’un champ lumineux dans un nano-dispositif, en intégrant une structure plasmonique, jouant le rôle de concentrateur de lumière, sur un guide d’ondes en silicium. Le confinement extrême de la lumière a pu être observé par une technique de microscopie à champ proche, développée au LNIO.

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