Now recognize that nano-antennas can combine the wave function of and electron and a deep infrared photon together. Because charge is always conserved, this fano resonance forms a new quasiparticle that now carries negative charge which is now a boson with spin = 1.
This quasiparticle is called a polariton with a new thermalized electron temperature close to absolute zero. It immediately forms a Bose-Einstein condensate which can thermalize emitted gamma rays from the nuclear reaction. On Mon, Apr 29, 2013 at 4:07 PM, Chuck Sites <[email protected]> wrote: > I think I understand know how a virtual neutron can be created in the a > metal like Ni or Pd. First I've never have been a hydro fan, because it > seemed to violate the fundamental principles of quantum mechanics. If it > sub S(n=1) quantums states did exist in H there should be a very strong > series of sub S(n=1) lamer lines in the ultraviolet which have never been > observed. I think the same would appear in the binding properties of H in > a metal, so I'm skeptical of the sub S(n=1) quantum states. > > However, it could it be possible that the radius of the S(n=1) can be > influenced by the sea of charge from the conduction electrons in certain > metals? After reading a the vortex discussions on the Latest issue of the > Condensed Matter Nuclear Physics, It seemed interesting that Ni-62+ > virtual n (ie p + sub s(n=1)e.) -> Cu 63 + weak beta-. However, I still > could not bring myself to accept, that a p + sub s(n=1) e- could make a > virtual neutron. Electron screening is fairly well accepted theory but > nothing close to making a virtual neutron. But then, I started thinking; > you know metals are a much different environment from a gas state that we > normally think of for hydrogen atoms. What if instead of the electrons > moving to a sub s(n=1) state simply is the standard s(n=1) shrunken due to > electro-static repulsion from sea of electrons that makes up the background > charge of the host metal? In that case, the physics should be fairly > simple to understand. Amazingly then there are no miracles! > > If this speculation is correct, it might be demonstrable in an electron > density map comparing standard metal, with a hydrated metal. Neutron > scattering of a hydrated metal could be very revealing (and I suspect that > has already been done somewhere). X-ray crystallography studies of > hydrated metals might also show evidence of a compacted hydrogen s(n=1) > state. > > If that is possible, it becomes the first time that I can see how the heat > from Ni H could be nuclear in origin. > > Cheers! > > >
