Topics of interest for the workshop on Optical Waveguide Theory and Numerical Modelling address the physical understanding, the mathematical description, and the computational treatment of guided as well as non-guided optical waves and related effects in micro- and nanostructures. They include, but are not limited to:

• Passive and active waveguide devices:

  Simulation and design of photonic integrated systems, linear and nonlinear effects in waveguides and waveguide arrays, light localisation in space and time, grating structures, in- and out-coupling device schemes.

• Optical micro-resonators:

  Passive and active optical cavities, resonator circuits, excitation and spectral engineering, photonic atoms & molecules, and respective applications.

• Photonic crystals:

  Photonic bandgap structures, photonic crystal devices, photonic crystal fibres, and respective applications.

• Photonic nanostructures and metamaterials:

  Nano-resonators and -antennas, resonator arrays, homogenization, optical metamaterials, surface-enhanced Raman scattering, photon management by nanostructures in PV and OLED structures, metamaterial waveguides.

• Plasmonics:

  Metallic waveguides and nanowires, tapers and field enhancement, array-effects in metallic nanostructures.

• Optoelectronic devices:

  Waveguide lasers, fibre lasers, micro-lasers, mid IR and THz sources.

• Guided wave sensors:

  Fibre and integrated-optic sensors, bio-sensors.

• Multiphysics effects
   
• Advances in analytical, numerical, and computational methods:

  Generic, configuration-specific.