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- Title
Features of Correlated States and a Mechanism of Self-Similar Selection of Nuclear Reaction Channels Involving Low-Energy Charged Particles.
- Authors
Vysotskii, V. I.; Vysotskyy, M. V.
- Abstract
Features of the Robertson–Schrödinger coordinate–momentum and energy–time uncertainty relations and connection between them have been considered. A method has been proposed to determine the duration of giant energy fluctuations of particles in a correlated coherent state. This method makes it possible to justify both a huge (many orders of magnitude) increase in the probability of the tunnel effect with the subsequent low-energy nuclear reaction and the automatic selection of low-energy reaction channels involving charged particles and the exclusion of the production of radioactive daughter isotopes. It has been shown that the same mechanism of formation of correlated coherent states explains a very significant suppression of gamma radiation observed in such reactions stimulated by the virtual energy as compared to similar reactions proceeding at a high "real" energy of particles.
- Subjects
NUCLEAR reactions; PARTICLES; LOW-energy nuclear reactions
- Publication
Journal of Experimental & Theoretical Physics, 2019, Vol 128, Issue 6, p856
- ISSN
1063-7761
- Publication type
Article
- DOI
10.1134/S1063776119040125