Terry, thanks for this post. This discovery of dark lightning is what I was referring to as the systems engineering approach to LENR research in the thread “Editorial by Hagelstein in Infinite Energy”.
Who could have ever guessed that meteorology could show the same basic mechanisms happening in Ni/H LENR. This type of dark lightning has been recently discovered to exist in sub-nanometer sized “hot spots” in between the touching surfaces of nano-particles. Electric charge accumulates on the particles like static charge does in a clouded sky of a thunderstorm. A steady discharge between the nano-particles forms static EMF that does not radiate outward; this outward bright radiation is called far field radiation. In contrast, this dark mode radiates furtively though powerfully inward toward the center of the “hot spot”. This is how the powerful atomic level electrostatic EMF discharge disrupts the subatomic processes inside the nuclei of nearby atoms. But in LENR, being somewhat different from dark lightning because of its almost infinitesimally small size, the hot spot is entangled throughout the entire volume of all the micro-particles. The nuclear energy that is produced by this dark mode is distributed roughly evenly through a quantum mechanical sharing mechanism as that nuclear energy is broken up into a million small individual thermal pieces throughout the entire volume of the micro-powder. In a thunderstorm, when the lightning turns inward in a dark mode toward the atoms of air in the thunder stroke, no entanglement of the roiling and heaving air is possible and the nuclear radiation that the dark lightning produces is released in its full intensity as gamma and x-rays. Nature is replete with countless examples of fractal reflections of all its processes from the huge processes possible throughout the entire sky, down to the near atomic level LENR processes between micro-particles. How amazing this all is. Cheers: Axil On Wed, Apr 10, 2013 at 12:52 PM, Terry Blanton <hohlr...@gmail.com> wrote: > I think understanding this will aid in the explanation of NiH LENR. > >
