*“One way to define active sites for a gainful Ni-H reactor would be as a "topologically decoherence-protected nanocavities (Casmir cavities or pits) filled with protons"*
Have you ever asked yourself what causes those protons to accumulate in those nanocavities. After all, the protons are not little particles that fall into the cracks. No, they are waves that obey the laws of Quantum Mechanics. Cavities are not the only glue that attracts protons. Nano-hairs on nickel micro-particles perform in the same way. They attract the protons and keep them very close to these nano-obstructions. And the QM law that applies here is Anderson Localization. American physicist Philip W. Anderson won the Nobel Prize for Physics in 1977, for his research into the electronic structure of magnetic and disordered systems, which led to the introduction of greatly advanced electronic switching and memory devices for computers. So Anderson localization is a BIG topic in Physics. In 1958 he explored the phenomenon of electron localization, or Anderson localization, wherein beyond a critical amount of impurity scattering the diffusive motion of an electron halts. In 1959 he published a theory explaining "superexchange", an interaction between the electrons of two molecular entities mediated by one or more molecules or ions. In 1961 he developed what is now called the Anderson model, to explain the behavior of heavy fermion systems. Today, it is interesting to note that Anderson localization is at the forefront of experimental solid state and condensed matter Physics. Not too long ago, experimenters have verified that Anderson Localization applies to matter waves (AKA protons). If you want to understand Ni-H reactor "topologically decoherence-protected nanocavities (Casimir cavities or pits) filled with protons" you should take some time and understand ANDERSON LOCALAZATION. Cheers: Axil On Fri, Jan 11, 2013 at 7:46 PM, Jones Beene <[email protected]> wrote: > Ni-H reactor would be as a > "topologically decoherence-protected nanocavities (Casimir cavities or > pits) > filled with protons" >
