For the Nth time I reference this experiment to explain the tritium production process using nanoplasmonics.
"Laser-induced synthesis and decay of Tritium under exposure of solid targets in heavy water" http://arxiv.org/abs/1306.0830 Initiation of nuclear reactions under laser irradiation of Au nanoparticles in the presence of Thorium aqua ions http://arxiv.org/ftp/arxiv/papers/0906/0906.4268.pdf The SPP procress both produces tritium and stablizes it. The amount of tritium produced is a result of a mismatuch in the rates of production and stablization. The LENR reaction here is a result of a magnetic beam produced by gold nanoparticles excited in the visible EMF range using a laser. The nanoparticles are isolating and concentting the spin of the photons of light into a corherent magnetic beam. This beam produces the fusion of deuterium as a reaction product. I ask you to look at this experiment again to understand how this LENR process works. On Thu, Jul 9, 2015 at 1:18 PM, Bob Cook <[email protected]> wrote: > IMHO energetic particles are not happening because there are no gammas > and only minimal neutrons. The distribution of energy occurs in small > amounts, and it takes a coherent to accomplish this.. > > Bob Cook > > *From:* Eric Walker <[email protected]> > *Sent:* Thursday, July 09, 2015 6:38 AM > *To:* [email protected] > *Subject:* Re: [Vo]:LENR-forum: Claytor generates increased tritium with > Brillouin technique > > This kind of work, in which tritium is generated, is very interesting. > An important challenge is sorting out whether LENR is involved somehow. > Some are quick to invoke normal "plasma fusion" with plasma-discharge > systems of this kind. I think that is a reasonable initial assumption if > neutron counts are seen that are on the same order as the tritium. I do > not recall seeing this happen in the plasma discharge experiments that I've > looked at. In general the neutron counts are lower than the tritium by > orders of magnitude, when both have been measured at the same time. Here I > may simply be ignorant of the literature or forgetting something. > > Another possibility is that what is going on in the plasma-discharge > experiments involves LENR in some particular way. My current favorite > hunch is that the reaction precursors somehow penetrate far into the > electron cloud of a lattice site, and that the many electrons to be found > there provide a great deal of screening. In addition, the momentum of the > resulting reaction, in cases where a gamma would be produced, is perhaps > shared with the lattice site itself. In the case of a nickel nucleus, the > nucleus would get a good kick with the energies involved, but it would not > necessarily go flying off. > > Eric > >
