On Sat, Aug 3, 2013 at 1:03 PM, MarkI-ZeroPoint <[email protected]>wrote:
> > I think it was Puthoff who suggested that a continual interaction (xchng of > E?) between the ZPF and electrons is what maintains them at some distance > from the nucleus. Well, when atoms find themselves in a Casimir cavity, > and > some of the larger wavelength ZPF is EXCLUDED, then there is LESS ZPE (E > not > F) to maintain what we know as the ground state of electrons of those > atoms. > Thus, the electrons fall to a lower level which balances with whatever > level > of ZPE is present in the Casimir cavity... am I behind the 8-ball on this? > Has this been proposed yet? > Sorry Mark, yes. What Puthoff actually says is that there is a harmonic exchange with the accelerating electron which prevents it from radiating (and falling below the ground state). I proposed that a H atom in a high Rydberg state draws additional energy from the ZPF as it approaches the lattice electrons in the Ni crack. Upon exiting the crack and returning to the normal orbital state, the electron radiates that energy. If done in a resonate manner, one could certainly imagine a significant electron spin alignment propagating in the Ni due to the ionization pulse in the DGT reactor and a subsequent strong magnetic field. Or not.
