AUTHOR(S): Fulvio Frisone
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KEYWORDS condensed matter, Dislocations of the ions within the metal, Coherence Theory, low energy nuclear reactions (LENR) |
ABSTRACT The aim of this work is to explain the deuteron-deuteron reactions within palladium lattice by means of the coherence theory of nuclear and condensed matter. The coherence model of condensed matter affirms that within a deuteron-loaded palladium lattice there are three different plasmas: electrons, ions and deuterons plasma. Then, according to the loading percentage x=D/Pd, the deuterium ions can take place on the octahedrical sites or in the tetrahedral on the (1,0,0)-plane. Further, the present work is concentrated on Palladium because, when subjected to thermodynamic stress, this metal has been seen to give results which are interesting from both the theoretical and experimental points of view. Moreover in Pd lattice we can correlate the deuterium loading with D-Pd system phases (i.e. , and ) by means of theory of Condensed Matter. Further, This paper seek to demonstrate that, at room temperature, the deformation of the crystalline lattice can influence the process of interaction of deuterons introduced within it. Calculations of this probability, in fact, showed an increase of at least 2-3 orders of magnitude with respect to the probability of fusion on the surface of the lattice. These phenomena open the way to the theoretical hypothesis of a kind of chain reaction, as a result of the deuterium loading and catalysed by micro-cracks formed in the structure by micro-explosions, can favour the process. In the second section we will discuss the problem of interaction of Deuteron-Plamon. |
Cite this paper Fulvio Frisone. (2017) Theoretical Study of the Phenomenon of Cold Fusion within Condensed Matter and Analisys of Phases (a, b, g) Theoretical Model Between Low Energies of Deuterium Nuclei Cold Fusion. International Journal of Applied Physics, 2, 1-10
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