TOM5: Resonant Nanophotonics

Chairs

Riad rvb Riad Haidar,
ONERA (FR)
 
Nicolas bonod2021 sq

Nicolas Bonod,
Institut Fresnel (FR)

 

 

 

 

Synopsis

Nanophotonics aims at controlling light at nanometer scales. The design of nanostructures that can resonantly interact with light is of crucial importance to enhance light matter interactions and to control field distributions at subwavelength scales. These novel nanostructures offer technical and technological solutions with high innovation potential. The TOM 5 will address both fundamental and application aspects of resonant photonics. Topics will cover quantum nano-optics, bio- and chemo- sensing, nonlinear optics, metamaterials, optical trapping, new plasmonic materials, theory and modal analysis, among others.

Topics

  • (Quantum) nanophotonics with 2D materials (e.g., TMDCs) 
  • Metasurfaces for bio- and chemo-sensing applications 
  • Active and tunable optical metasurfaces 
  • Nonlinear optics in nanostructures and metasurfaces 
  • Theory and modelling for nanophotonics and metamaterials
  • Topological, non Hermitian and non-reciprocal photonics
  • Deep-learning photonics
  • Optical antennas
  • Meta-surfaces & applications 
  • Plasmonic devices 
  • Nanomanipulation with light, optical trapping 
  • Metasurfaces for energy applications 
  • Nonreciprocity, and time-modulated nanophotonic materials 
  • Transport in quasiperiodic and random photonic systems

CALL FOR PAPERS

SUBMIT