I agree, that is good stuff, even I can understand parts of it.
On Thu, Mar 27, 2014 at 11:11 AM, Bob Cook <frobertc...@hotmail.com> wrote: > Fran, Jones, Frank, Axil, Dave, etal-- > > I think that Jones summary is right on. Too many things fit together. It > deserves a paper. If nowhere else with Jed. > > Bob > > ----- Original Message ----- > *From:* Roarty, Francis X <francis.x.roa...@lmco.com> > *To:* vortex-l@eskimo.com > *Sent:* Thursday, March 27, 2014 7:29 AM > *Subject:* RE: [Vo]:Magnetic permeability and LENR > > Jones said [snip] IOW - an oscillation between bound and unbound modes of > two atoms in a nanocavity creates a strong near-field magnetic flux at > terahertz frequency which diminishes rapidly with distance. Thus the > magnetic permeability of the walls of the cavity are important to capture a > percentage of that flux. Mu metal is at least 10 times more capable (higher > permeability) than nickel to capture near field flux.[/snip] > > Jones, > Nicely said, this idea is a real good candidate for linkage of energy to > the walls and plays into issue of atomic vs molecular populations and > runaway or starvation of the effect. It would fit into the puzzle nicely! > Fran > > > _____________________________________________ > *From:* Jones Beene [mailto:jone...@pacbell.net <jone...@pacbell.net>] > *Sent:* Wednesday, March 26, 2014 12:44 PM > *To:* vortex-l@eskimo.com > *Subject:* EXTERNAL: RE: [Vo]:Magnetic permeability and LENR > > > To clarify: > > If the LENR reaction, at any stage, involves hydrogen flipping rapidly > from ortho to para alignment (THz) then that spin-energy could be converted > to heat by Mu Metal foil as both the electrode and flux sink.... the tritium > reaction which occurs with deuterium (Claytor) could be the result of heat > having been extracted instead of the cause of that heat. > > This is not as crazy as it sounds, at least not in QM. > > Imagine a large number of nanocavities which have been formed into nickel, > using Mizuno's glow discharge technique. The SEM images indicate that these > cavities are like surface blisters, raised on the formerly flat surface. > > D2 is contained therein and at a threshold temperature, can go into a > spin-flipping mode where the molecules flip from ortho-to-para alignment > rapidly and/or from atomic to molecular form (or both) like a see-saw. The > effective magnetic field of any atom of deuterium is 12.5 T but the > molecule is diamagnetic. That creates a strong changing flux pattern (which > may not be conserved) but that near-field flux would not be noticed unless > the cavity walls can convert it into heat. > > IOW - an oscillation between bound and unbound modes of two atoms in a > nanocavity creates a strong near-field magnetic flux at terahertz frequency > which diminishes rapidly with distance. Thus the magnetic permeability of > the walls of the cavity are important to capture a percentage of that flux. > Mu metal is at least 10 times more capable (higher permeability) than > nickel to capture near field flux. > > Once the two deuterium atoms have given up significant levels of spin > energy to their surroundings, then the Oppenheimer-Philips effect happens > at a reduced threshold to give tritium. OP is a quantum effect - not a > thermonuclear effect. It is the result of excess heat having been already > extracted - and not the cause of that heat. > > In the case of hydrogen, no secondary fusion reaction (or side-effect > reaction) is possible as is the case with bosonic deuterium (due to Pauli > exclusion). The result with H2 is two energy depleted protons which can no > longer shed energy and effectively go cold, or else they capture fractional > electrons at close radius and go dark. > > Mills defines dark energy as highly redundant ground state hydrogen - but > he may have missed that the primary way protons can do this is via magnetic > spin coupling - and not his way - which involves impossibly high levels of > ionization. Both ways are possible, even in the same reaction - but the > Rossi effect does not require extreme ionization, and Mills does require it. > > > > > >