Regarding the excerpt from the patent. *More in detail, during the process of orbital capture, H- ions can lose its own couple of electrons and form protons 1H+. A first fraction of the protons 1H+ is subjected to direct nuclear capture reactions by the nuclei of the same atoms of the clusters in which the orbital capture has occurred, while a second fraction of the protons 1H+ can be expelled by Coulomb repulsion from the nucleus of the metal atom where the orbital capture has taken place. The expelled protons have an energy that can be determined and characterised. For instance, in the case of Nickel, this energy is about 6.7 MeV, as detected by a Wilson chamber, on the basis of Bethe's equation. A part of the protons of the second portion, which does not react with other nuclei of the primary material, can leave the latter and interact with a material adapted to give rise to proton- dependent reactions, if this is present. *
A cooper pair of protons enters the transition metal nucleus, one is captured an the other is expelled carrying 6.7 MeV which is the excess binding energy. The proton pair has a spin of zero. which is consistent with magnetic interaction with protons. The same magnetic glue has just be found to produce cooper pairs of electrons in superconductors is found in Ni/H. The Magnetic field in the Ni/H reaction is far stronger than can be found in superconductors so there is no high temperature falloff. I would strongly suspect that the expelled proton is not seen when the reactor is in operation. Such an experimental detail should not appear in the patent because it is not part of the reaction mechanism of an operational reactor. The 6.7 MeV would be thermalized by BEC formation in the operational reactor, IMHO. To see the 6.7 MeV, the nickel must be removed from the influence of the BEC and placed in a cloud chamber after a considerable amount of time. On Tue, Aug 5, 2014 at 7:11 PM, Ron Kita <[email protected]> wrote: > Greetings All, > > I just saw this on Alain Coetmeur s Scoop.it website. > > Not sure IF it made it to Vortex.....yet: > http://www.scoop.it/t/lenr-revolution-in-process-cold-fusion > > Ad astra, > Ron > > >
