The theory of muon catalyzed fusion (MCF) is similar in concept to what Piantelli proposes. But MCF will result in proton proton (PP) fusion. The end reaction products of PP fusion is primarily light elements like boron and beryllium. This has been seen in the ash assay results from DGT.
PP fusion will also explain why Piantelli sees proton pairs in his reaction cycle combining with nickel to produce copper. On Sun, Aug 10, 2014 at 1:23 PM, Axil Axil <janap...@gmail.com> wrote: > This theory can be verified by the detection of a large increase in the > numbers of muon neutrinos exiting the Ni/H reactor. > > > On Sun, Aug 10, 2014 at 1:12 PM, Axil Axil <janap...@gmail.com> wrote: > >> A well recognize feature of LENR is the rapid or sometimes almost >> instantaneous stabilization of radioactive elements. >> >> This LENR mechanism is central to the way LENR can produce energy through >> an extreme range from megawatts to milliwatts. >> >> One of the toughest LENR riddles to answer is as follows: ‘how can the >> meltdown of a Ni/H reactor be caused by the same process that produces one >> watt of output in the Cravins golden ball.’ >> >> The mechanism that provides this vast range of power generation intensity >> is tunneling. >> >> It is clear that the application of a magnetic field can increase the >> rate of radioactive decay in isotopes by orders of magnitude. >> This same mechanism can work inside protons and neutrons to increase the >> production of virtual mesons. >> >> To set the stage, the three quarks inside a proton live inside a very >> small volume. This quantum confinement box defines the constraints imposed >> on the uncertainty of the trio of quarks by limiting the range in their >> position to a high degree. Through the uncertainty principle, this means >> that the variable maximum virtual energy that this fixed position produces >> is very large. >> >> The virtual quark inside the proton is jumping around inside its >> tunneling confinement box with great vigor. >> >> But the energy level to produce a meson is also high at 140 MeV. So >> without some help a meson is not produced by virtual particle production. >> >> But when a magnetic field is applied to the proton, it adds some kinetic >> energy to the quark dance. This pushes up the floor of the tunneling >> confinement box. The degree in which this floor is raised is proportional >> to the strength of the magnetic field applied to the proton. >> >> In a very strong magnetic field, the virtual meson jumps out of the >> confinement box very often because the floor of the box is raised very >> high. Many mesons are produced that eventually decay to muons that catalyze >> hydrogen fusion. >> >> When the magnetic field is weak as in the case of the Cravins ball, very >> few meson get out of the confinement box and the muon catalyzed fusion >> level is very small. But fusion still goes on because that small amount of >> extra magnetic energy is just enough to produce some small amounts of >> fusion. >> >> >> > >
