Topics

Potential topics include but are not limited to:

  • Physics of artificial materials for novel and extreme wave phenomena
  • Metamaterials modelling - analytical and computational approaches
  • Computational, AI-based, data-driven design of metamaterials
  • Fabrication and experimental characterization of meta-structures
  • Tunable, reconfigurable and programmable metamaterials
  • Nonlinear metamaterials and metasurfaces
  • Time-space modulated metamaterials
  • Nonreciprocal and topological metamaterials
  • Chiral and bianisotropic composites; Nonlocality and spatial dispersion
  • Active and non-Hermitian metamaterials; Exceptional-point physics
  • ENZ metamaterials; Extreme parameters and broken symmetries
  • RF, microwave and THz metamaterials and metasurfaces
  • Photonic crystals and electromagnetic-bandgap structures
  • Nanophotonicsand nano-optics
  • Plasmonicsand polaritonics; Strong light-matter effects; Hot electrons
  • 2D and Van-der-Waals metasurfaces and metamaterials
  • Acoustic and mechanical metamaterials
  • Metamaterials in soft matter and robotics
  • Quantum and superconducting metamaterials
  • Multiphysics metamaterials
  • Homogenization and effective medium models
  • Transformational electromagnetics, elastodynamics, thermodynamics
  • Metamaterials for farfieldand nearfield imaging; Super-resolution
  • Metamaterials for sensing and metrology
  • Metamaterials for computing, information and AI
  • Metamaterials for quantum optics and nano-electronics
  • Metamaterials for energy harvesting and conversion
  • Thermal metamaterials and metasurfaces
  • Metamaterials for communication technologies (5G and beyond)
  • Antenna and absorber applications of metamaterials
  • Advances in cloaking and scattering engineering
  • Biological and biomedical applications
  • Space, naval, aeronautic and automotive applications
  • Metamaterials in education
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