In recent decades, the development of data recording systems in physical, chemical, biological, and other experiments has led to an increase in the amount of information that needs to be processed. Increasing the amount of recorded information allows for significantly higher accuracy and informativeness of research but requires the development of several disciplines, including experimental methodology and data processing methodology.
The laboratory's goals lie in the development of these two areas in the context of a current and important technique for non-invasive functional brain research: neurovisualization. Specifically, the laboratory focuses on the development of sensor systems, experimental methodology and modeling, and data processing methodology in the fields of electroencephalography (EEG) and magnetoencephalography (MEG). The main project of the laboratory is the creation of non-cryogenic MEG systems based on new types of sensors: atomic magnetometers with optical pumping (AMOP) and solid-state magnetometers based on iron-yttrium garnet films (IYGF).