It is my contention that one of the many mechanisms of magnetic based LENR reactions is that photons (magnetic) can pump energy into the proton(and/or neutron) to the point where gluons in the proton(s) and/or neutrons(s) will get to and surpass an energy saturation level. At that point of saturation, these *Hadron(s)* will form a gluon/quark plasma from which a new element will reform upon cooling (energy transfer back to the magnetic soliton). This mechanism is one of the most energy intensive LENR reactions and is only seen in the Ni/H reactor.
I believe that this contention is new physics beyond the standard model. On Mon, Jul 7, 2014 at 7:42 PM, Axil Axil <janap...@gmail.com> wrote: > From the referenced article: > > <Snip> > > The quarks have spin 1/2, so physicists originally assumed that two of the > quarks were in opposite alignment (cancelling their spin), leaving one > unpaired quark to give the proton spin. However, measurements of > muon-proton collisions found only a quarter of the proton’s spin comes from > quark spins. The rest has to come from gluon spins and/or the orbital > motion of quarks and gluons inside the proton. > > <EndSnip> > > I referenced this article to show that gluons have spin and/or can produce > spin. > > I believe that the standard model doctrinaire on gluon interactions that > gluons can not interact with photons. > > I don't understand how a gluons can demonstrate magnetic properties(spin) > and at the same time be unable to interact with photons. > > However, this paper: > > Exclusive Physics at the Tevatron > shows photon/gluon interactions: > > http://arxiv.org/pdf/1006.0204.pdf > > > On Mon, Jul 7, 2014 at 6:03 PM, <mix...@bigpond.com> wrote: > >> In reply to Axil Axil's message of Sun, 6 Jul 2014 13:59:19 -0400: >> Hi, >> [snip] >> >http://physics.aps.org/synopsis-for/10.1103/PhysRevLett.113.012001 >> > >> >Gluons Chip in for Proton Spin >> >> No, it just means they rotate. The magnetic field would come from the >> rotation >> of the quarks. >> >> > >> >It looks like polarized gluons produce most of the spin of the proton. >> That >> >means that the gluons are magnetic entities. >> > >> >A magnetic field applied to the proton could disrupt the polarization of >> >the gluons and therefore the strong force that keeps protons and neutrons >> >together in the nucleus. >> > >> >There is an intimate relationship between the strong force, magnetic >> force, >> >and the gluon that might underpin LENR reactions at the most basic level. >> > >> >. >> Regards, >> >> Robin van Spaandonk >> >> http://rvanspaa.freehostia.com/project.html >> >> >
