In this paper, the authors have intended to ascertain the driving force for an adsorbed deuterium atom or a deuteron to collide in titanium crystal. Recent simulation analysis results, related to the predicted cluster or cell models of deuterium atoms adsorbed in titanium crystal, together with the related calculations by Coulomb formula and Yukawa formula were investigated. Coulomb force working between deuteron–deuteron (d–d) particles is compared with the nuclear force working between them. The change of the force to each of them is evaluated in accordance with the distance between them, near the surface of the atomic nucleus. Taking into account the results of previous studies, it seems that nuclear fusion will occur occasionally without adding any specified energy. We think that there is a possibility of a collision of free deuterons through the medium of a negative charge in a deuterium atom in ligancy 2. On the other hand, we think that if a suitable amount of energy, which is far smaller than that of high temperature nuclear fusion, such as the irradiation of the alternative electromagnetic wave, for example, is supplied to adsorbed deuterium atoms and desorbed deuterons in the titanium (Ti) shavings packed in the experimental cylinder under a pressurized or evacuation condition with a suitable temperature rise, then there also will be a higher probability of nuclear fusion being achieved.

Study on the Phenomenon Reported “Neutron Generation at Room Temperature in a Cylinder Packed with Titanium Shavings and Pressurized Deuterium Gas” (3)

GIORGI, Giacomo;BELANZONI, Paola
2016

Abstract

In this paper, the authors have intended to ascertain the driving force for an adsorbed deuterium atom or a deuteron to collide in titanium crystal. Recent simulation analysis results, related to the predicted cluster or cell models of deuterium atoms adsorbed in titanium crystal, together with the related calculations by Coulomb formula and Yukawa formula were investigated. Coulomb force working between deuteron–deuteron (d–d) particles is compared with the nuclear force working between them. The change of the force to each of them is evaluated in accordance with the distance between them, near the surface of the atomic nucleus. Taking into account the results of previous studies, it seems that nuclear fusion will occur occasionally without adding any specified energy. We think that there is a possibility of a collision of free deuterons through the medium of a negative charge in a deuterium atom in ligancy 2. On the other hand, we think that if a suitable amount of energy, which is far smaller than that of high temperature nuclear fusion, such as the irradiation of the alternative electromagnetic wave, for example, is supplied to adsorbed deuterium atoms and desorbed deuterons in the titanium (Ti) shavings packed in the experimental cylinder under a pressurized or evacuation condition with a suitable temperature rise, then there also will be a higher probability of nuclear fusion being achieved.
2016
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11391/1372779
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