Research lines

  • (metamaterials) and complex
  • (multireflector, reflector +
  • (ships, airplanes, etc.) with complex
  • (static or on-the-move) security
  • advanced artificial materials
  • Alive system (CAS).
  • Analysis and synthesis of antennas
  • Aperture Radar (ISAR), tomography,
  • Application of electromagnetic fields
  • Automotive radar systems.
  • biomedicine applications.
  • Characterization, identification or
  • Civil Security.
  • Computing (HPC).
  • control.
  • Design of antennas and matching
  • Electromagnetic compatibility (EMC), simulation and measurement. Electromagnetic interferences between systems (EMI), radiations hazards (EMR).
  • Electromagnetic simulation of
  • Electronc Warfare. Ship signature
  • environments.
  • etc.
  • Fast integral-equation methods and
  • imaging.
  • Integrated photonics.
  • management (measurement,
  • materials and substances by THz
  • Millimeter wave sensing systems for
  • nanoparticles, nano-antenas, etc.)
  • nanoplasmonic biosensing and
  • networks on board real platforms
  • non-destructive detection of
  • Parallel High Performance
  • plasmonic systems (coloids of
  • Quantum communication.
  • Quantum cryptography.
  • Quantum information.
  • Radar (SAR), Inverse Synthetic
  • Radar Cross Section (RCS),
  • Radar imaging. Synthetic Aperture
  • reconfigurable) for scanning or
  • reflectarrays transmitarrays,
  • satellite applications.
  • Satellites.
  • signature and infrared (IR) signature.
  • simulation and control), both Radar
  • simulation, measurement and
  • spectroscopy (SERS) and other
  • spectroscopy.
  • supercomputing techniques applied
  • Surface-enhanced Raman
  • to computational electromagnetics.
  • to food freezing technologies. Cell