Femto-H2 Transmutation Proves the Current Nucleus Model Incorrect

Authors : Noriyuki Kodama

Volume/Issue : Volume 8 - 2023, Issue 9 - September

Google Scholar : https://bit.ly/3TmGbDi

Scribd : https://tinyurl.com/47vj3a7k

DOI : https://doi.org/10.5281/zenodo.8416617

The Cold fusion is caused by femto-D2, which has electron in deep orbit at a few femto-meters from the nucleus to shield coulomb Repulsive force between d-d. Metal with FCC lattice and with H loading can generate femto-H2. Both femto-D2 and femto-H2 can transmute target elements. I reported previously that current nucleus model is incorrect and nucleus is constituted only by proton and internal electron based on transmutation experiment with femto-D2. In or der to prove that femto- D2 exists I proposed to run transmutation experiments with femto-H2 because H is constituted by proton. And I discovered the phenomena which can be related to transmutation with femto-H2. One is the existence of helium-3 in plasma fusion reactor and another is brown gas. Because brown gas is commercially available, I would like to propose Governments to mass-analyze brown gas to prove that brown gas is constituted by hydrogen 16O, 18O and 3He by femto-H2 transmutation of H2O, and H2 and 16O2 are produced by electrolysis of H2O, and also would like to ask plasma fusion society to probe the mechanism of helium-3 generation by the support of Helion Energy. I also would like to propose femto-H2 generator with nano-zeolite and feasibility study to develop femto-Cl2 which will open the way to stable super-heavy element.

Keywords : LENR, Cold Fusion, Femto-D2, Femto-H2 Electron Deep Orbit, Nucleus Model, Neutron, Isiland of Stability, Expandable T Site, Super Heavy Element.


Paper Submission Last Date
31 - December - 2023

Paper Review Notification
In 1-2 Days

Paper Publishing
In 2-3 Days

Video Explanation for Published paper

Never miss an update from Papermashup

Get notified about the latest tutorials and downloads.

Subscribe by Email

Get alerts directly into your inbox after each post and stay updated.

Subscribe by RSS

Add our RSS to your feedreader to get regular updates from us.