Main Fields of Research

  • Radiospectroscopy. Chemical reactions and quantum coherence: femtochemistry, spin chemistry. Atomic molecular processes on the solid-state surface, atomic force microscopy
    (LABORATORY OF MOLECULAR PHOTOCHEMISTRY OF THE DEPARTMENT OF CHEMICAL PHYSICS)
  • Iinvestigation of physicochemical properties of nanostructures and mechanisms of their formation at the solid surfaces with scanning probe microscopy techniques.
    (LABORATORY OF SURFACE PHYSICS AND CHEMISTRY OF THE DEPARTMENT OF CHEMICAL PHYSICS)
  • Iinvestigation of the influence of fast ions and powerful energy pulses on the composition, crystalline structure and fundamental properties of solids (physical principles of micro- and nanoelectronics). 
    (LABORATORY OF RADIATION PHYSICS)
  • Synthesis of paramagnetic metal-containing liquid crystals. Investigation of metallomesogenes, crystals and solutions of paramagnetic complexes with radiospectroscopy techniques.
    (LABORATORY OF MOLECULAR RADIOSPECTROSCOPY)
  • Study of physical properties of materials with nonstandard conducting and magnetic characteristics like those of high-temperature superconductors and strongly correlated electronic systems; multilayered systems with alternating superconducting and magnetic layers. 
    (LABORATORY FOR ADVANCED MATERIALS PHYSICS)
  • Development of physical principles for optical phase memory on the basis of optical transient processes (above all, the long-lived photon echo) and superradiance.
    (LABORATORY OF NONLINEAR OPTICS)
  • Analysis of the needs of medicine in modern physical techniques in diagnostics and therapy, research into possible ways of applying scientific and technical potential of ZPhTI in medicine. Study and development of new physical techniques, including MRI methods, with view to their further application as means of diagnostics and treatment. Investigation of physical backgrounds and development of the sensor technology in molecular electronics (physical, chemical, biological sensors).
    (LABORATORY OF MEDICAL PHYSICS)
  • Modeling of nonlinear processes in complex physicomechanical systems and deformations in structures at various scale levels.
    (LABORATORY FOR MODELING OF PHYSICOMECHANICAL PROCESSES AND SYSTEMS)