Once the energy level of the magnetic field get up 140 MeV( the mass of the Meson) the meson is no longer virtual and will not decay.
Less than 140 MeV, based on the energy/time uncertainty principle, the decay time of the virtual meson is proportional to the kinetic energy content of the mesons pass. The polariton BEC removes the energy of the reaction via the magnetic coupling so that alpha, beta, and gamma decay does not occur. Without a BEC as in the LeClair reaction all those nasty radiation items show up. On Sun, Aug 10, 2014 at 4:49 PM, Eric Walker <eric.wal...@gmail.com> wrote: > On Sun, Aug 10, 2014 at 10:12 AM, Axil Axil <janap...@gmail.com> wrote: > >> 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. >> > This is kind of a cool idea. What is the formula you're using to derive > the increase in energy of the ground state of the proton by the application > of a magnetic field, such that there will be a non-negligible probability > that pions will be created? > > Once you have a muon, how do you deal with the beta, gamma and > electron-positron annihilation radiation that come from a resulting fusion > between a proton and a lattice site? > > Eric > >
