>From the work of D.V. FILIPPOV http://uf.narod.ru/public/recom_e05.pdf
*On the possibility of nuclear transformation in low-temperature plasma from the viewpoint of conservation laws* D.V. FILIPPOV, L.I. URUTSKOEV Snip Note that in solving the above problem the number of the processed nucleon- exchange elementary acts is as large as 10E5 - 10E6, I conjecture that the number of possible reactions goes proportionally as the power of the magnetic fields that are produced. The magnetic fields that are produced is such a powerful system has a longer reach and width to enclose more atoms. In a high powered system like in exploding metal foils in a liquid, the number of possible reactions are very large. This high powered magnetic behavior is also true in LeClair's cavitation reactor. In a low powered system like electrolysis, the number of reactions are small. Rossi's system is intermediate in magnetic power production so the number of possible reaction pathways is also limited. On Wed, Oct 29, 2014 at 1:13 AM, Eric Walker <[email protected]> wrote: > On Tue, Oct 28, 2014 at 2:24 PM, Robert Ellefson <[email protected]> > wrote: > > How would you explain that >> particular ash morphology, considering the shape of the nickel fuel grain >> clusters? > > > I suspect that the further we get away from everyday physics, the harder > it will be to understand LENR. That's one of the reasons I'm betting on > simple, prosaic electric arcing at a microscopic level between electrically > insulated metal grains (or perhaps metal vapor in higher temperature > systems). The arcing would be responsible for accelerating partially > ionized species such as 7Li into the substrate wall. If a large enough > number of such species were drawn into a narrow area, not unlike in a dense > plasma focus, I think a small but substantial portion of them could be > knocked into the larger lattice sites enough to achieve occasional neutron > stripping. > > Eric > >
