LENR is produced through the concentration and focusing of energy from of an all pervasive weak source to a highly concentrated intense output.
In many LENR systems, the source of power is dipole motion. When the electron of the dipole hits some sort of discontinuity in the lattice, it bends to form a vortex. The discontinuity could be a space between nanoparticles, or a crack in the lattice, or a cavity, or a bump, or even a grain boundary on the surface of a wire. Infrared photons are needed to mix with the electron within the vortex to turn the electron into a boson. This new combination is called a polariton. Polaritons are important because unlimited numbers of polaritons can be packed into the spinning vortex because they are now bosons. We cannot pack electrons into a tight space but we can pack polaritons in huge numbers. This enables this light/electron mixture to gain in strength and the waveforms of the polaritons are destroyed and rebuilt through mixing. Low frequency infrared photons grow into soft x-rays as more and more polaritons pack themselves into the spinning vortex. All the while this EMF power concentration and strengthening is going on, no energy is escaping from the vortex. Like the ultimate roach motel, polaritons check in but nothing comes out. In this process, so many photons accumulate; there concentration rivals the most powerful lasers. At this advanced stage and mixing and stabilizing, the photons become coherent. The lifetime of the Polaritons is just a few picoseconds but after they die, they are immediately reborn since their energy is retained within the vortex. Like a magnetic black hole the vortex contains a ginormous spin. This huge EMF concentration produces charge screening in the matter nearby and photo fusion results. Here, photons cause the nucleus to reform and not neutrons. Unlike the neutron, the EMF carries no annular momentum or kinetic energy into the nuclear reaction so the product of the photo-fusion is stable. In other words, there is no radioactivity in the nuclear byproduct of the LENR reaction. On Mon, Jan 27, 2014 at 2:25 PM, Jones Beene <[email protected]> wrote: > One reason that local superconductivity around "tiny domains" (or NAE, or > Casimir cavities, or excitons etc) would be an important feature of LENR, > especially when found with the SPP (surface plasmon polariton) is that the > strong electric field of the SPP will "ring" longer - for an extended > period > of time, rather than simply short. > > You can imagine a natural kind of "nano-tornado" in the sense that local > superconductivity - even if it is present for only milliseconds, providing > magnetic containment and pressurization for dense hydrogen clusters. > > This would be the appropriate time to flash the famous and memorable Book > Cover image - which graces the JR translation of Mizuno. (free plug for the > book) > > > http://www.amazon.ca/Nuclear-Transmutation-Reality-Cold-Fusion/dp/1892925001 > > People have speculated that hyper-loaded > palladium hydrides might be high temperature superconductors. The entire > cathode is probably not an HTSC, but it might be one over tiny domains. > Cold > fusion occurs over tiny domains, so that's all you need. Loading is not > even > across the entire cathode. It is much higher in some spots than others. > > Here is a citation but I have not been able to get hold of > the full text. > > "Possibility of high temperature superconducting phases in > PdH". > Tripodi, P.; Di Gioacchino, D.; Borelli, R.; Vinko, J. D. > (May 2003). Physica C: Superconductivity. 388-389: 571-572. > . >
