That helps clarify, thanks
On Wed, Aug 21, 2013 at 2:31 PM, Axil Axil <janap...@gmail.com> wrote: > The Ni/H reaction in a nutshell… > > > > Heat induced Dipole motion is step 1. > > > > High voltage/frequency EMF production is step 2. > > > > More EMF amplification by nanoparticles is step 3 > > > > EMF storage in a soliton via vortex current *whispering*-*gallery mode > wave *formation is step 4. This is how the dark mode EOV is produced. > > > > Electrostatic field and anapole magnetic field production by the soliton > is step 5 > > > > Nuclear reactions caused by EMF are the result final. > > > > > > > On Wed, Aug 21, 2013 at 2:00 PM, ChemE Stewart <cheme...@gmail.com> wrote: > >> Axil, >> >> It sounds reasonable, in this post you mention "dipole" >> >> Previously you mentioned "anapole" >> >> "Kim thinks it is the electrostatic field. I think it is the anapole magnetic >> radiation that comes out of the soliton." >> >> and you have also mentioned >> >> "An EVO can be conceived of as an atom without a nucleus, or as a >> spherical monopole oscillator. EVs exhibit soliton behavior with number >> densities equal to Avagadro's number. These non-neutral electron plasmoids >> contain various levels of binding energy which exceed that of atoms, and >> allows for new types of reactions with matter." >> >> I personally don't know enough to know which type of EMF is created for >> sure but it appears there are poles there... >> >> Stewart >> >> >> On Wed, Aug 21, 2013 at 1:42 PM, Axil Axil <janap...@gmail.com> wrote: >> >>> One of the essential functions that the Ni/H reactor does is to convert >>> heat energy into EMF energy. >>> >>> >>> >>> The 5 micron micro particle with nickel nanowire coating is the first >>> step in the energy conversion process. >>> >>> >>> >>> Surface-plasmon-induced drag-effect rectification (SPIDER) , which is >>> based on transfer of the linear momentum from decaying surface-plasmon >>> polaritons (SPPs) to the conduction electrons of a metal nanowire. The >>> SPIDER effect bears a promise to generate very high terahertz fields in the >>> vicinity of the metal nanowire. >>> >>> >>> >>> Reference: >>> >>> >>> >>> http://arxiv.org/pdf/0907.1621v1 >>> >>> >>> >>> Giant Surface Plasmon Induced Drag Effect (SPIDEr) in Metal Nanowires >>> >>> >>> >>> Giant surface plasmon-induced drag effect (SPIDEr), exists under >>> conditions of the extreme Nanoplasmonic confinement. Under realistic >>> conditions, in nanowires, this giant SPIDEr generates rectified THz >>> potential differences up to 10 V and extremely strong electric fields up to >>> 10^5-10^6 V/cm. >>> >>> >>> >>> >>> >>> In the micro-particles that start the energy conversion process from >>> heat to EMF, the nano-wires are optimized to produce extreme voltage and >>> high frequencies. The nanoparticles that contact this high voltage field >>> then generate additional dipole motion but that motion is now amplified by >>> EMF fields in the millions of volts and ultra-high frequencies. >>> >>> >>> >>> >>> >>> Like a high voltage tesla coil, the primary produces extreme dipole >>> oscillations that are further amplified by energy conversion and transfer >>> down a network of connecting nanoparticle chains >>> >>> >>> >>> >>> >>> >>> >>> >>> >>> >>> >> >> >