I speculate that when a coherent proton who is a member of a large coherent ensemble of protons penetrates the nucleus of a nickel atom, this nickel atom will retain the energy of the nuclear reaction as potential energy.
When a thermal phonon that propagates in the nickel lattice perturbs this atom into decoherence, the potential energy of this nuclear reaction will be released over the entire proton assemblage thereby transforming a erstwhile megavolt energy release into many kilovolt releases over the entire coherent assemblage. In heavily coherent QM systems as per Piantelli or Rossi, coherence will be immediately reestablished and other nuclear based energy producing reactions will occur and stored as potential energy. Increasing heat in the system will further increase QM decoherence and result in more potential energy transformation to kinetic energy. As in the Mills and Arata systems, with no lattice heating, no potential energy transformations to kinetic energy will occur until a trigger sets off a QM chain reaction. Regards, Axil On Mon, Dec 5, 2011 at 3:54 PM, <mix...@bigpond.com> wrote: > In reply to Axil Axil's message of Mon, 5 Dec 2011 15:46:07 -0500: > Hi, > [snip] > >When one of these coherent atoms becomes QM decoherent and leaves the QM > >assemblage through the action of a trigger, it releases this potential > >energy over the entire QM assemblage. > > Surely the energy of any one atom would be small, and if released over the > entire assemblage would result in a truly minute amount being deposited > with > each member? > > Regards, > > Robin van Spaandonk > > http://rvanspaa.freehostia.com/project.html > >
