The conference scope includes but is not limited to the following topics:

  • Physics of complex electromagnetic materials
  • Experimental techniques for characterization of metamaterials
  • Analytical and numerical modelling of metamaterials
  • Homogenization of metamaterials and effective medium models
  • Three-dimensional metamaterials
  • Planar metamaterials, meta-surfaces and meta-sheets
  • Carbon nanotubes and graphene in metamaterials
  • Nonlinear, tunable and reconfigurable metamaterials
  • Active and absorption-free metamaterials
  • Chiral and bianisotropic composites
  • Metamaterials with extreme parameters
  • Quantum metamaterials
  • Plasmonic metamaterials
  • Extraordinary transmission
  • EBG structures, photonic crystals, and their applications
  • RF and microwave metamaterials: design, properties, applications
  • Millimeter wave/THz metamaterials and applications
  • Optical metamaterials and applications
  • Acoustic and mechanical metamaterials
  • Antenna and absorber applications of metamaterials
  • Metamaterials for nanoelectronics and nanoantennas
  • Metamaterials for quantum electronics
  • Metamaterials for sensors
  • Biological applications of metamaterials
  • Medical applications of metamaterials
  • Integrated nanophotonics
  • Super-resolution and near-field imaging: effects and devices
  • Transformational electromagnetics and optics
  • Advances in cloaking
  • Micro- and nano-fabrication of metamaterials
  • Novel metamaterial concepts
  • Educational aspects of metamaterials
Supported by
CST - Computer Simulation Technology
IOP Publishing
CRC Press
Journal of optics
American Elements
Nature Photonics
Imperial college press