What is the basis of the Metatron Hunter 4025 effect trigger sensor?
In the 1920s, Valery Kravkov's experiments first recorded the long-distance effects of interactions between living and inanimate objects—the transmission of information pulses from humans to devices. Under the guidance of Professor Vyacheslav Togatov, the effects of various semiconductor structures on humans were studied. Experiments demonstrated that the human brain can influence the device's sensor without any wires.
Metatron-type devices can assess the level of background noise around a damaged biological object. The trigger sensor is a device that records background noise from the biological object. The trigger sensor is a broadband noise generator. A special oscillating diode is used as the noise generator.
After being tuned to the resonant frequency of the biological object, the noise generator can obtain the noise frequency-resonance characteristics of the object under study within a standard frequency range. The received signal can be sent to an oscillator or computer for further spectral analysis.
The creators of this system used remote biofeedback to receive brain activity signals and converted this information into a pulse sequence via the trigger sensor.
Another element of the system—the cadistor—is designed for direct use with the patient to amplify the effects of the trigger sensors. It consists of a single-crystal semiconductor carbon crystal, which acts as a photoelectric element when affected by a laser.
When the laser emission targets the cadistor, a temporary short circuit occurs in the semiconductor, releasing a certain amount of energy. Repeating this process at a high frequency results in the periodic accumulation and release of energy. An optimal laser wavelength of 630–680 nanometers has been found.
Periodic illumination of the cadistor by laser emission leads to the periodic release of energy, which in turn increases the patient's intuitive potential.
In the described case, both the electromagnetic and torsional components of the laser emission are targeted at the patient. A microwave resonator is used to shield the electromagnetic element; this prevents its penetration while shaping and guiding the torsional element as the sole stimulus affecting the patient.
One of the key elements of the Metatron Hunter 4025 is the N and S magnetic sensors, which activate certain areas of the cerebral cortex.