Regarding the excerpt from the patent. *A list of deposition methods suitable for obtaining the cluster structure is shown in patent application WO2010058288.0 another exemplary embodiment, alternative, the active core can comprise a transition metal in the form of particles as powder, dissolved or sintered. Active core 18 can then be formed in such a way that it shows the clusters on its surface. In particular, the core can comprise a support material on which the clusters are deposited or formed. The transition metal can be deposited by a deposition process selected among a chemical process, an electrolytic process, a spraying process, a sputtering process and other processes, and a combination thereof.*
Micro? Particles are deposited on a nickel substructure (a bar?). This provides the static NAE that all reactors need to get going. On Tue, Aug 5, 2014 at 11:16 PM, Axil Axil <[email protected]> wrote: > 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 >> >> >> >
