An Interpretation of Some Postelectrolysis Nuclear Effects in Deuterated Titanium

Miguel Alguer&oacute;; Jos&eacute; Francisco Fern&aacute;ndez; Ferm&iacute;n Cuevas; Carlos S&aacute;nchez

doi:dx.doi.org/10.13182/FST96-A30726

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Home / Publications / Journals / Fusion Science and Technology / Volume 29 / Number 3

An Interpretation of Some Postelectrolysis Nuclear Effects in Deuterated Titanium

Miguel Algueró, José Francisco Fernández, Fermín Cuevas, Carlos Sánchez

Fusion Science and Technology / Volume 29 / Number 3 / May 1996 / Pages 390-397

Technical Paper / Nuclear Reactions in Solid / dx.doi.org/10.13182/FST96-A30726

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An explanation is proposed for the time dependence of the neutron emission transient observed after interrupting the electrolysis in Fleischmann-Pons-type experiments with titanium cathodes. It is suggested that the time structure of the neutron emission is related to a reduction of active volume (i.e., the volume with a loading ratio higher than the critical value necessary for cold fusion to take place) in the deuterated titanium. This reduction occurs during the postelectrolysis time due to deuterium transport from the TiD_x delta-phase layer to the undeuterated bulk of the cathode. Calculations of the active volume decrease are done by using the Wagner model.