Ultra-Low Energy Nuclear Fusion by Cs(2H, γ )La

We found that certain three-body excited states of 55 133 Cs 1 3 H 2 in the Pd 12 cuboctahedron molecule could interfere with the three-nucleon resonance states of Cs+t+t or 57 139 La ∗ which transfer from the 7/2 + state of CsH 2 to 7/2 + state of La ∗ by the E2 transition, and down to the La groun...

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Bibliographic Details
Published in:EPJ Web of conferences 2024, Vol.306, p.1045
Main Authors: Oryu, Shinsho, Watanabe, Takashi, Hiratsuka, Yasuhisa, Takeda, Masayuki
Format: Article
Language:English
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Summary:We found that certain three-body excited states of 55 133 Cs 1 3 H 2 in the Pd 12 cuboctahedron molecule could interfere with the three-nucleon resonance states of Cs+t+t or 57 139 La ∗ which transfer from the 7/2 + state of CsH 2 to 7/2 + state of La ∗ by the E2 transition, and down to the La ground state, although the molecular ground state and the first excited state of 55 133 Cs 1 3 H 2 are very stable. The three-body calculation is performed by using six potentials. We also found that the critical fusion value of t × ρ × T (t:duration time, ρ : plasma density, T : temperature or energy) for the ultra low energy molecular synthesis is almost the same as that for the thermal nuclear fusion, or higher. It is claimed that the radioactive nuclear waste products of the nuclear fission, could form via nuclear fusion a stable nucleus due to our ultra-low energy molecule-nucleus transition.
ISSN:2100-014X
2100-014X
DOI:10.1051/epjconf/202430601045