WaveR — The device for quantum Gariaev matrices radiation by radiowaves

прибор для зарядки торсионным полем продукции компании ЛР
Прибор ВЕГА считывает заряд торсионного поля продукции компании ЛР

torsion-field charging device for LR products
VEGA device reads the charge of the torsion field of LR products

Dr. Gariaev creates the matrices with the help of a radio-receiver. He chooses a frequency in a random way within the range of 530 — 1600 kHz and he records a matrix. Not all the frequencies carry a useful signal; therefore, many of his matrices do not function.

In order to be certain about a positive result, it is necessary to irradiate oneself with the radio-waves of real laser. Then there won’t be a problem of finding a frequency with a useful signal. 

he device for quantum Gariaev matrices radiation by radiowaves

Peter Gariaev creates quantum sound matrices with the help of LGN-303 laser.

The construction peculiarities of this laser allow registering laser beam’s polarization noise and modulating the impulse based power supply unit (switching power supply) with it. Depending on the characteristics of the noise, the power supply unit changes its’ frequency and the impulse width, which in turn influences the wide spectrum of harmonics radiated by it into the air waves.

Laser’s radiator has two beams with linear polarization turned at the angle of 90 degrees respective to each other. These beams have identical radiation power. Polarization noise is described as a phenomenon occurring when the power output of one beam decreases, while the power of the beam with other polarization increases.

This can be registered with special instruments for measuring the noise of lasers.

In order to permanently induce the polarization noise, or the concurrence of modes, the laser is driven into a special mode of functioning with the help of reflected beam. While in this mode, polarization jumps occur permanently. In this mode, the laser is capable of scanning the quantum information from various objects. Through the photo diodes, the signal is being fed to the laser frequency stabilization circuit, which controls the laser furnace, and the impulse based power supply unit (switching power supply) reacts to this signal and turns it into high frequency radio waves, which can be received by the radio set in the AM frequency range. Thus, as per Dr. Gariaev’s assertion, a useful signal carrying the quantum state of the scanned object appears in the sound file.

Dr. Gariaev says that it is necessary to choose the reception frequency on the radio set correctly, in order to pick up the useful signal. At the same time, he does not provide any clear method of doing that.

Therefore, it is possible to further develop the device, which would record the low frequency signal of polarization noise of the laser tube in the form of a sound file to a flash drive or to an MP3 player. After that, the MP3 player would be connected to an identical power supply unit in place of the frequency stabilization circuit, and it would influence the unit’s load. Thus, an identical wide frequency spectrum of power supply unit’s harmonics would be obtained, being modulated by the previously recorded signal from the photo-diodes.

Such a device would allow influencing with the whole spectrum of radio-waves, without the necessity of being physically close to the laser. 

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