Robin You have identified a missing link in my education - I was sure a covalent bond released a photon in transferring to a lower energy state just like an electron falling to a lower orbital. After Robin's comment about 3body collisions I went looking for info on covalent bonds and the photon emission I wrongly assumed. All these years I though a reduced energy state equated to an orbital dropping to a lower orbit but apparently not. This doesn't change my premise regarding the relativistic cavity being the energy source that accelerates these atoms but it does mean I have to modify the rules for emission of photons or show an alternate energy transfer. Any citation or better keywords to search on the 3 body collision to produce photons would be appreciated - for Now I simply removed photon emissions from covalent bonds formed outside the cavity form the Sim and changed the description for emissions inside to "if two different fractional orbitals form a fractional h2 molecule they give off what appears to be a blue photon from our perspective outside the cavity" - This may still be wrong and the 3 body requirement may be the same inside the cavity for different fractional orbitals as well but it buys me some time to investigate a proper fix for the simulation and there is the possibility that collisions between orbitals of different fractional values will cause one of them to gain and lose energy sufficient to produce a photon as they translate to a common fractional value in their diatomic state.
Question: If you assume for a moment that change in Casimir force could disassociate a covalent bond and restore the atoms to normal atomic orbital strength.where does the excess energy go as the molecule oscillates between bound and unbound states? Could the "3 body" interaction be accomplished with just hydrogen and hydrogen ions since the atoms are essentially already inside a giant catalyst? I think I need to go back and take a more careful look at the Black Light Flash animation for this process. Regards Fran http://www.scienceblog.com/cms/blog/7200-relativistic-interpretation-casimir -effect.html-1