• статья

    A new, experimental path to nucleosynthesis

    Jürg A. Wyttenbach, Russ George Atom-Ecology

    Abstract
    Nucleosynthesis is far from being understood. The main reason is that physics has a poor working model for dense
    matter. The other reason: New paths12345, since 30 years at least, have been systematically ignored as each
    would have challenged running projects like ITER, CERN.
    In 1989 two electro-chemists announced a breakthrough new process1 called cold fusion(LENR****). Within hours
    a world wide tsunami wave of excitement flooded the news channels and many laboratories immediately started
    a replication experiment to verify the claims. The first that did have success was a US military lab, that for obvious
    reasons did not publish it. Others failed due to lack of knowledge or for foul play reasons.
    As we will show here, the so called “cold fusion reactions” may well explain a huge chunk of nucleosynthesis.
    Together with Holmlid’s experimental findings, that 4

    He can be produced without neutrons, just from Hydrogen and
    the fact that hydrogen can undergo a stable weak nuclear bond67, we now can explain some of what potentially
    happens since billions of years in the earths mantle and core.
    Deuterium is more abundant in comet’s water than on earth. Why and how this could happen is explained by our
    experimental, rare earth powder mixtures, that all consist of classically “stable” elements loaded with Deuterium.
    These powders, in some cases, start to produce well known, because predictable, gamma radiation even at room
    temperature and without any stimulation, while consuming Deuterium! We here, in the first part, will discuss some
    spectra we recorded in late October 2018 and then look at some theoretical aspects of cold fusion needed to explain
    gamma spectra.
    *****LENR stays for Low Energy Nuclear Reactions. New physics will be presented in a separate paper.

    Опубликовано

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