A.A.Shpilman (

Cold nuclear fusion?

From experiments on separation a component of "axion field" (see. N1/99) can be supposed that, the interaction between protons through "axion field" can be of the following kinds:

1) Interaction through accompanying merge of "axion field" 3 (see Fig.1);
2) Interaction through accompanying merge a separate component of "axion field" (see Fig.2), component with a positive electrical pseudo-charge 1 and component with a negative electrical pseudo-charge 2;
3) Interaction through counter short closing 4 a separate component of "axion field" (see Fig.3) having opposite pseudo-charges;
4) Interaction through counter short closing components of "axion field" (see Fig.4) with a negative electrical pseudo-charge of a proton P1, with component of "axion field" with a positive electrical pseudo-charge of a proton P2.
5) Etc.







The main criterion of interaction of the component of "axion field" is accompanying motion of electrical pseudo-charges (identical directivity of vector Poyting). Probably, it causes formation of spiral structures and appearance of a gyroscopic moment at a proton. Apparently, interact the protons, located on identical power levels or at levels to multiple some size only.

The majority of generators described in the almanac, create interaction shown on Fig.1. In generators described in the articles "The EM-Mechanical Generator of Axion (Spin) field" and "The Optical Generator Axion (Spin) of a Field", it is possible occurrence of interactions shown on Fig.2 and 4. In "The Optical Generator Axion (Spin) of a Field" it is possible interaction shown on Fig.3.

Probably, interaction through counter short closing 4 the separate component of "axion field" (see Fig.3 and 4) with an opposite pseudo-charge, will not create forces of attraction of protons, but will fix mutual disposition of protons. The forces of attraction (repulsion) can arise because of change of the phase-frequent characteristics one of protons. Probably, it causes mutual strengthening of "spin polarization" a combination of elements: Cr-Ag-Sn, Ag-Cu-B, Bi-Mo, Zn-Ni, etc.

Probably, the interaction through short closing a component of "axion field" it also is that, we name by "nuclear forces". This interaction can show itself not only within the limits of a nucleus of atom, but also in internuclear interaction, and in macro-scales.

The interaction between protons through of "axion field", probably, can strong reduce Coulomb repulsion of protons, can facilitate nuclear fusion (for example, nuclear fusion of a deuterium and tritium). Probably, it also is that we call as "tunneling effect".

The chains of nucleuses of atoms interacting on the schemes represented on Fig.2 and 4, probably can form steady structures such as a spherical lightning. But, in such case, modern attempts to reproduce a spherical lightning are made completely incorrectly.


The Indicator

There are molecules changing optical properties (colour) at deformation. Let's assume, that trimeric molecules of dye X-Y-Z exist, where at change of relative disposition (or change of electrical potential) the component Y and Z occurs change colour of dye. If we shall attach to components Y and Z such elements as silver and chromium (see Fig.5) that, probably, such dye will be sensitive to "axion fields" because of interaction of nucleuses of silver and chromium through "axion fields".





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