• Section 1. Physics of radio waves: radiation, reception and use
  • Section 2. Radio electronics and electrodynamics of microwave, extremely high frequencies and hyper high
  • Section 3. Solid-state electronics, micro- and nanoelectronics
  • Section 4. Laser and optoelectronic systems: development, creation, application
  • Section 5. Quantum electronics and photonics
  • Section 6. Modern measuring instruments and technologies
  • Section 7. Modern problems and technologies for training specialists in the field of radiophysics, radio engineering and optics


  • Physics of interaction of radio waves with inhomogeneous media and objects. Radiotomography and ultra-wideband sounding
  • Metamaterials, magnetic materials and nanotechnology in radiophysics and electronics
  • Nanoelectromagnetism
  • Methods and tools for measuring the electromagnetic characteristics of materials in the gigahertz and terahertz ranges
  • Materials and devices for micro-, opto- and nanoelectronics
  • Semiconductor detectors and sensors
  • Laser and optoelectronic systems in the study of materials and media
  • Computer optics, digital holography, image processing
  • Quantum electronics, photonics and nonlinear optics
  • Materials and devices for nanophotonics and nanoplasmonics
  • Nonlinear dynamics, synergetics and fractal geometry in radiophysics and optics
  • Information technology in the study of complex structures
  • Physics of the magnetosphere, ionosphere, the upper atmosphere of the Earth
  • Solar-terrestrial physics and physical ecology
  • Modern technologies of teaching radiophysical and radio engineering disciplines 

      The official languages of the conference are Russian and English.