What is the basis of the Biophilia Intruder effect trigger sensor?

Experiments by Valery Kravkov in the 1920s were the first to document the long-distance effects of interactions between animate and inanimate objects—that is, the transmission of pulses of information from humans to devices. Under the supervision of Prof. Vyacheslav Togatov, the response of various semiconductor structures to human influences was studied. Experiments have proven that the human brain can affect a device's sensors without any wires.


The information background noise level around the destroyed biological object can be assessed. A trigger sensor is a device that records the background noise of information from a biological object. The trigger sensor is a broadband noise generator. Special oscillating diodes are used as noise generators.


After the noise generator is adjusted to the resonance frequency of the biological object, the noise frequency-resonance characteristics of the research object can be obtained in the standard frequency range. The received signal can be sent to an oscillator or computer for further spectral analysis.


The system's creators use remote biofeedback to receive signals of brain activity and convert this information into pulse trains by triggering sensors.


Another element of the system - the cadistor - is designed to be used directly with the patient to amplify the effect of the trigger sensor. It consists of a single crystal of semiconducting carbon, which acts as a photovoltaic element when it is affected by a laser.


When a laser shot is aimed at the cadistor, a temporary short circuit occurs in the semiconductor and a certain amount of energy is released. Repeating this process at high frequency results in a periodic accumulation and release of energy. The preferred laser wavelength was found to be 630 – 680 nm.


Activation of the periodic illumination of the cadistor by laser emission results in a periodic release of energy, which leads to an increase in the patient's intuitive potential.


In the described case, both the electromagnetic and torsional components of the laser emission are aimed at the patient. The electromagnetic element is shielded using a microwave resonator; it prevents penetration of the electromagnetic element while shaping and directing the torsional element as the only stimulus affecting the patient.


One of the main elements of the Biophilia Intruder is the N and S magnetic sensors that activate certain areas of the cerebral cortex.