Description

Be a part of META 2019, the world’s leading conference on nanophotonics and metamaterials, and take the opportunity to present your recent results, and meet and network with world renowned experts. The program will facilitate discussions on various current hot topics such as metasurfaces & metadevices, topological effects in optics, two-dimensional materials, light-matter interaction in nanocavities, plasmonic circuits, thermal engineering, quantum photonic systems, etc. Featuring several plenary, keynote and invited speakers, the program will provide insights into the latest trends and strategies actionable to deal with the practical challenges faced by the community.

Call For Papers

META 2019 program will include :

  • Plenary, keynote and invited lectures
  • Contributed oral and poster presentations

META 2019 topics include, but are not limited to:

Track 1: Plasmonics & Nanophotonics

  1. Plasmonics and nano-optics
  2. Ultrafast and nonlinear phenomena
  3. Quantum and topological photonics
  4. Photothermal and photoelectric nanophotonics
  5. Biophotonics
  6. New materials for photonics (Graphene, MoS2, WS2, etc)
  7. Optical antennas and plasmonics-based devices
  8. Plasmon-enhanced photovoltaics, photocatalysis, and solar fuels
  9. Super-resolution imaging

Track 2: Metamaterials and metasurfaces

  1. Metamaterials and negative index materials
  2. Acoustic and seismic metamaterials
  3. Thermal metamaterials
  4. Quantum metamaterials
  5. Chiral and bianisotropic materials
  6. Metamaterial-based devices
  7. Metasurfaces and flat optics, FSS, HIS,...
  8. Transformational electromagnetics, cloaking,...

Track 3: Photonic Crystals

  1. Photonic crystals
  2. Laser and cavities

Track 4: Theory, Experiments, and Applications

  1. Modeling and computational techniques
  2. Emerging applications: Quantum photonic devices, Plasmonics for health, Nanoscale imaging,...
  3. Micro/Nano fabrication and characterization techniques

META 2019 will be the foremost place to learn about the most important developments in the field of advanced electromagnetic materials and nanophotonics.