“Now we only need a foolproof, methodology to reliably and cheaply create these NAE on common metals (such as Ni, Cu). Maybe Francesco Celani has one?”
Rossi first invented this when he used tubules to cover nickel micro-powder. Cheers: Axil On Mon, Oct 22, 2012 at 3:44 PM, Akira Shirakawa <shirakawa.ak...@gmail.com>wrote: > On 2012-10-22 20:44, Jed Rothwell wrote: > >> Storms, E. and B. Scanlan, /Nature of energetic radiation emitted from a >> metal exposed to H2/. J. Condensed Matter Nucl. Sci., 2012(submitted). >> >> http://lenr-canr.org/acrobat/**StormsEnatureofen.pdf<http://lenr-canr.org/acrobat/StormsEnatureofen.pdf> >> > > I don't think I have the expertise needed to discuss this in detail, but > it's quite an interesting, clearly written paper and I recommend others who > do, to read it as well. > > It doesn't sound like it should be too hard to verify the claims for > experienced researchers, but for this reason it's in turn hard to believe > that radiation emission from metals (treated at a nanometric scale) just by > exposure to H2 and [optionally] heat due to small scale fusion effects has > never been observed so far, even by chance (as NAE, cracks, appear to be a > prerequisite for this to happen), in other fields such as the battery/fuel > cell industry for example. > > Hidden in plain sight would be a suitable expression to define this effect > if really confirmed. > > Now we only need a foolproof, methodology to reliably and cheaply create > these NAE on common metals (such as Ni, Cu). Maybe Francesco Celani has one? > > Cheers, > S.A. > >
