If you look at that chip that Zawodny held up for our examination, you will see 48 different nano-photonic configurations of the test material, probably carbon nanotubes. Nasa is on the right track. They need to switch the nanotubes to nickel nanowire completely covering uniform micro-particles. Because resonant temperature is so important, heat the micro-particles to the black body resonance temperature that corresponds to the uniform diameter of the micro-particles.
To get an improved reaction rate, Nasa should boost the free electron surface electron density by either using thermionic material like potassium or alternatively, like DGT, use spark discharge. The best approach is to use both of these surface electron boosting techniques on the micro-particles. If we follow the recipe closely, LENR can be so simple. Cheers: Axil On Fri, Feb 15, 2013 at 2:13 PM, <pagnu...@htdconnect.com> wrote: > > Friday Nuclear Matinee: Low Energy Nuclear Reactions > > The ANS Nuclear Cafe today brings faithful viewers a short interview with > Dr. Joseph M. Zawodny, senior research scientist at NASA Langley Research > Center. Zawodny discusses research on “Low Energy Nuclear Reactions” at > NASA Langley, and the incredible potential of this new form of nuclear > power—IF theory is validated by experimental results. > > > http://ansnuclearcafe.org/2013/02/15/nuclear-matinee-low-energy-nuclear-reactions/ > > >
