In contrast to nuclear reactions called Cold Fusion, which does not have reliable experimental confirmation, we consider another type of nuclear reaction, based on numerous experiments in which nuclear reactions occur without overcoming the Coulomb barrier. These reactions are usually associated with luminous objects with anomalous properties, the anomalies of which are responsible for circulating light, which ensures a dense packing of molecules in a shell of compressed gas, where it circulates. However, close packing of molecules is not enough for nuclear reactions to occur, since such reactions do not occur in liquids and solids. This is explained by the fact that the interaction between identical adjacent atoms is determined by another parameter - the phases of the oscillations existing in them, that is, the atoms are oscillators. To exchange energy, the phases of oscillations in the oscillators must differ. This condition is not satisfied in a steady state in liquids and solids, but can sometimes be satisfied when air is compressed in objects with circulating light. Therefore, this type of reaction will henceforth be called Nuclear reactions between identical adjacent atoms (NRBIAA). It is shown that cavitation bubbles that arise during cavitation of water also relate to objects with circulating light. Evidence is provided that during the cavitation of water, excess energy is observed with the formation of new neon nuclei.
V. P. Torchigin (Mon,) studied this question.
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