Abstract
Replicable experimental results about low-energy nuclear fusion reactions based on initially reacting deuterium nuclei giving cold nuclear fusion synthesis of helium (both isotopes 3He and 4He) and energy release as final products are reported in this article. These final products are results of interaction of deuterium with the solids in experimental system including two specimens: molybdenum metal and palladium nanowires. Experimental proofs about cold nuclear fusion synthesis of both 3He and 4He are provided. It reported a correlation between concentration of the generated helium and the measured temperature of the sample holder. It is found that the concentrations of both 3He and 4He increase with increase of the kinetic energies of the interacting deuterium nuclei and also with increase of the temperature of the sample holder.
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