What question did this study set out to answer?

The research aims to propose a fusion model in cold fusion processes, focusing on dislocation annihilation.

April 27, 2026Open Access

JCF25-01 Mechanism of CF I: Fusion induced by dislocation annihilation (Slides)

Key Points

The research aims to propose a fusion model in cold fusion processes, focusing on dislocation annihilation.
Developed a fusion model based on dislocation annihilation in the palladium-deuterium system.
Analyzed macroscopic forces to explain quasi-static fusion and atomic-scale confinement.
Reevaluated Paneth’s experimental results from the 1920s related to helium production.
The model indicates selective production of 4He from quasi-static fusion.
Quantitative predictions corroborate Paneth’s observations, suggesting they were accurate.
Various derived properties include effects of dislocation density and loading on fusion outcomes.

Abstract

These slides were used at JCF25-01 on 2026-03-14. To explain cold fusion in the palladium–deuterium system, I propose a fusion model induced by dislocation annihilation. The macroscopic force accompanying dislocation annihilation enables quasi-static fusion with atomic-scale confinement to overcome Coulomb repulsion, resulting in selective production of the thermally most stable nucleus, 4He. From this model, various properties — such as the (D/Pd) loading effect, the influence of dislocation density and nuclear transmutattion — can be derived not only qualitatively but also quantitatively. Finally, Paneth’s experimental results from the 1920s were reevaluated. The amount of helium predicted by my model strongly suggests that Paneth’s experimental observations were indeed correct as the earliest excellent proof for cold fusion.

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Cite This Study

Shin'ya Fukuta (Sat,) studied this question.

synapsesocial.com/papers/69eefd82fede9185760d43ef https://doi.org/https://doi.org/10.5281/zenodo.19702398

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