How do you know that gluons exist? Has one ever been isolated? On Mon, Dec 3, 2018 at 4:39 PM <mix...@bigpond.com> wrote:
> In reply to bobcook39...@hotmail.com's message of Mon, 3 Dec 2018 > 14:12:32 > +0000: > Hi Bob, > > Just a guess, but IIRC most of the mass of Neutrons comprises gluons, so > perhaps > a light neutron would just contain lower energy gluons? > > (Reminiscent of Jones' theory from years back.) > > >Robin— > > > > > > > >Regarding my recent comments on the stable of primary particles in the > standard model, I had in mind that a light “mirror neutron” would > necessarily contain light quarks. not the same as the primary quarks the > are imagined per the standard theory. > > > > > > > >Is there another explanation for a light neutron containing quarks of the > standard theory’s rest mass for quarks? > > > > > > > >Bob Cook > > > >________________________________ > >From: mix...@bigpond.com <mix...@bigpond.com> > >Sent: Saturday, December 1, 2018 4:35:15 PM > >To: Vortex-l > >Subject: Re: [Vo]:Dark Matter as a "sterile antineutron" and the LENR > connection > > > >PS - another more mundane explanation is that in common with all beta > decays, > >occasionally (nearly) all the energy is carried away by the anti-neutrino, > >leaving the electron with so little that it remains combined with the > proton as > >an ordinary ground state Hydrogen atom, thus evading detection in the > proton > >beam experiments. > >Regards, > > > > > >Robin van Spaandonk > > > >local asymmetry = temporary success > Regards, > > > Robin van Spaandonk > > local asymmetry = temporary success > >