So, the cause of CF is probably not phonon resonance. Otherwise, how could small grains used by ahern, with around 1000 atoms could produce heat? Or maybe, that's a reason why phonon resonance works better with such small clusters? Such small particles tend to organize themselves, spontaneously, in regular polyhedra, to maximize the energy binding of the grain.
2012/4/6 Axil Axil <[email protected]> > To the highest possible extent, the lattice should be devoid of flaws to > minimize random phonon reflections(RPR). RPR will disrupt the phonon > resonance pattern that the lattice heat stimulant is producing. A flawed > lattice could be the reason for inconsistent results in many experiments. > > Obviously, micro powder will not work in this type of phonon system which > seeks to establish a phonon resonance pattern. > > > > > > On Fri, Apr 6, 2012 at 2:17 PM, Daniel Rocha <[email protected]>wrote: > >> That is another alternative, though, why not heat it with ultrasound? >> BTW, does the experimenters take care in figuring how the material was >> produced in relation to its lattice structure? Maybe the experiments do >> not go right so frequently because they rely on stimulate the lattice in >> specific directions and, because of this, they end up being randomly >> successful... >> >> 2012/4/6 Abd ul-Rahman Lomax <[email protected]> >> >>> However, I'm not clear if the far infrared would penetrate the windows >>> and electrolyte. >>> >>> >>> 2012/4/5 >>> <<mailto:[email protected]>fz**[email protected]<[email protected]> >>>> > >>>> >>>> Why not use a carbon dioxide laser? >>>> >>>> >>>> At 04:05 PM 4/5/2012, Daniel Rocha wrote: >>>> >The problem would be the output. The low energy >>>> >tail would have also a very low power. I think a >>>> >specialized equipment for that band is required... >>>> >>> >>> >> >> >> -- >> Daniel Rocha - RJ >> [email protected] >> >> > -- Daniel Rocha - RJ [email protected]
