Years ago when I built a sonoluminescence apparatus and was investigating its properties, I read of some systems that used alpha particles and neutrons to stimulate bubbles which would migrate to the acoustic field center. So, generally, alpha, neutrons, and protons may stimulate a bubble in water. Bubble Tech uses this property to stimulate a persistent bubble in a different fluid for neutron detection. In an electrolytic cell, whenever a bubble forms it briefly changes the resistance of the cell, but because bubbles can form so rapidly, it can appear as a step change in resistance. Since the bubbles form at random, it creates noise in the cell resistance. When LENR occurs, the emitted charged particles cause rapid bubble formation and hence an increase in the bubble noise in the cell resistance. This bubble noise will show up as a broadband spectrum in the voltage across the cells - becoming a conducted RF. Local propagating RF radiation can also occur from the step change in the current flow paths as the current restructures to flow around the bubble. This is not surprising.
As Terry asks, what is the spectrum? If the spectrum is broadband, the cause is probably this bubble noise. If there are narrow bandwidth spectral components, that would be more interesting. On Wed, Apr 15, 2015 at 9:27 PM, Terry Blanton <hohlr...@gmail.com> wrote: > > > On Wed, Apr 15, 2015 at 2:10 PM, Axil Axil <janap...@gmail.com> wrote: > >> Many experimenters are reporting RF as output of there experiments. Could >> this RF interfere with proper reactor control? >> > > This is the key to the nature of the reaction. Do we have a spectral > analysis of the emissions? >