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Е.Н. Цыганов и др. "Cold Nuclear Fusion in Metal Environment"
статья
COLD NUCLEAR FUSION IN METAL ENVIRONMENT
E.N. TSYGANOV1
M.D. BAVIZHEV2
M.G. BURYAKOV3
S.B. DABAGOV4
V.M. GOLOVATYUK3
S.P. LOBASTOV3
1 Cold Fusion Power, International, USA
2 LLC “Radium”, Moscow
3 Joint Institute for Nuclear Research (JINR), Dubna
4 P.N. Lebedev Physical Institute of the Russian Academy of Sciences, National Research Nuclear
University «MEPhI», Moscow
Abstract
This article discusses the mechanism of cold fusion of deuterium and other elements implanted in
the potential niches of conductive crystals. Cold fusion in metals becomes possible due to the fact
that the implantation of atoms in a crystal guides them to their p excitation levels, which are
determined primarily by the positioning of free conduction electrons in a zone of potential niches.
The excitation energy of the s-states is about 10-14 eV. The excited atoms’ orientation in the
crystal is not random but dictated by the crystal lattice’s electrostatic potentials. Calculations show
that the transparency of the Coulomb potential barrier, for example in the case of DD-fusion,
increases by about 60 orders of magnitude if two deuterium atoms meet each other in the minima
of the conductor’s potentials in the crisscross orientation. Most of the article is devoted to the
process of DD-fusion in the electrolytic saturation by deuterium in crystals, a process that is
extensively studied in these experiments. The article also briefly comments on other experimental
results related to cold fusion.Опубликовано