• Статья
    Decay-Instability of Transmuted Chemical Elements
    Obtained in LENR Experiment
    A. Klimov
    Power Engineering Technical University, Moscow, Russia
    Abstract
    It is well known that there are chemical element transmutations and its isotope composition transformations in LENR experiments
    [1], [2]. Time evolution of the transmuted chemical elements and their decay-instability have been studied in this work. New
    transmuted chemical elements (such as Fe, Cu, Ca. . . ) were obtained from the initial pure cathode material Ni (99.99%) by
    heterogeneous plasma formation in a plasma-vortex reactor [1], [2]. The chemical compositions of the initial cathode material
    and the transmuted chemical elements were measured by the EDS method and the ICP-MS method. It was revealed that there is
    considerable decay-instability of the obtained transmuted chemical elements at the time. This instability is accelerated dramatically
    by weakly ionized non-equilibrium plasma (WINP) action. It was confirmed that relative concentration of the initial Ni-atoms
    (cathode material erosion) is not changed, but the relative concentration of the transmuted atoms is dramatically decreased by
    WINP’s action. The author supposes that the theoretical model of bi-nuclear atom [4] can explain the obtained experimental results.
    Two-step transmutation method of the new chemical element creation in LENR experiment is proposed in this work at the first time.
    © 2022 ICCF. All rights reserved. ISSN XXXX-XXXX
    Keywords:

    Опубликовано

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