A device for sensory deactivation of stress-induced psychoemotional reactions, containing a control unit, sources of light, sound and tactile stimuli, characterized by the presence of a control microcontroller, configured to provide algorithms for the operation of sources of sensory stimuli in a given mode and in the mode of individually generated algorithms directly in the process of exposure to sensory stimuli taking into account the dynamics of continuously recorded indicators of functional state of the human body, connected to the inputs of the control microcontroller of sensors of indicators of the functional state of the human body, for example, electro-skin resistance, connected to the outputs of the control microcontroller of sources of light stimuli, assembled from sequentially combined addressable RGB LEDs, configured to generate a “running” light signal on background randomly set by brightness and color of the background illumination, sources of sound stimuli, made in de sound emitters controlled by digital timbre and volume control drivers, vibration sources, each of which contains two mini electric motors with eccentrics controlled by digital speed control drivers, tactile sources made in the form of mini-fans controlled by digital speed control drivers, sources of thermal effects made in the form of Peltier thermoelements controlled by digital drivers for regulating the contact heating intensity a solid surface connected to the data lines of the radio module. It provides the possibility of multimodal sensory stimulation of afferent inputs by influencing various physical factors on various types of receptors and body parts to form the effect of a moving wave of sensory stimuli and drawing attention to the sensory stimulation process against the background of the actualization of the traumatic situation for its subsequent desensitization and accelerated cognitive processing under the control of psychoemotional response using the effect of modulation of t
