All sciences. №2, 2023. International Scientific Journal - страница 8

But it is worth considering that in this case, the electron energy was selected resonantly, that is, in such a way as to increase the probability of a given reaction channel in relation to others up to 96—97%, as happens in energy resonant nuclear reactions with increased monochromaticity. And since there are no more than 1-5 particles with almost identical energy in the body, then in 4.85 cases out of 5 particles, they will be converted into such deuteron-neutron pairs correctly, and the remaining parts can be turned into the most probabilistic channel, forming other more massive particles, most often nuclei, by the energies of which it is easy to understand which of the pairs they belong to.

Further, due to their charge, deuterons are removed from the chamber, and neutrons, with residual nuclei, are additionally irradiated by protons, while equation (2) applies for nuclei, and (3) for neutrons.

The energy of proton beams is also selected resonantly. And all electron shells for all irradiated nuclei under the influence of an electric field with an accurate calculation of energy changes when they meet with a parasitic electric field of electromagnets (when rotated by magnetic fields) are calculated separately. Further, the neutrons remaining after this are additionally bombarded by protons according to (3). As a result, the body is divided into 3 layers of deuteron flows with their own pairs and identical energies, each of which is selected and calculated separately. Thus, there are three groups of particles – deuterons and electrons, into which the organism has turned, and electrons, according to the energy of which it is possible to write down the energy in the form of information for each deuteron-electron particle of the organism.

Next, we can consider the probability of tunneling of such a particle (4).

From this relation, it turns out that for the tunneling of an object, the kinetic energy of the particle itself must be equal to the value of the potential barrier, which led to the highest probability of 80%. In the case of a different difference, that is, when the energy of the particle is less than the potential barrier, the probability begins to fall rapidly, when in the opposite case it increases.

The above arguments are, in essence, direct evidence that it is enough to give and choose the correct vector for all three groups of deuterons-electrons of the body using one or another accelerator, in which it is necessary to maintain the highest possible high vacuum, as the fluctuations will increase many times and this will lead to the disappearance of all particles at one point and the transition to a certain point in the universe, depending on the size of the barrier – the length of the path and direction – the vector of the radiation itself.