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. > > >
