Muon +/- decay to produce one electron neutrino and one electron
Given the copious production of Positron-Electron pairs inherent
throughout the universe since t zero and on the earth from
Solar Energetic Particle insolation and Cosmic Ray Cascades in the
atmosphere plus Positron emission from natural and man-made
nuclear radiation, I have to vote for ubiquitous stable mass ~2e Ps- "Electronium "
(*e-) or stable (e- e+ e-) as the only possible particle to form the so-called (elusive-nebulous)
"Fractional Orbit Hydrino".
Science (the laws of physics) by popular vote. :-)
Fred
----- Original Message -----From: Frederick SparberTo: vortex-lSent: 6/7/2006 5:53:32 AMSubject: Re: Muons and Argon-40From an article on Muon Beams:Pion +/- 139.5669 MeV/c2 decay to produce one muon neutrino and one muon;Muon +/- 105.658389(34) MeV/c2"So far this discussion has been equally applicable to positive and negative particles, but this ends when either pions or muons are stopped in matter due to the different chemical nature of negatively and positively charged particles in matter. Negative pions that stop in the target behave like heavy electrons and rapidly cascade down to tightly bound orbitals where they almost always undergo capture by the nucleus instead of decaying to negative muons. Positive pions that have come to rest in solids take up interstitial positions between atoms so they are too far from nuclei to be captured; as far as (physics)is concerned their lifetime is unaffected by any properties of the target material. "Seawater (mostly) or primordial?19-K-40 (radioisotope) +Pion - -----> 18-Ar-40 * (Stable?)
