Ed Storms: “The NAE in my theory are cracks of a especially small gap size that are generated by stress relief in the material. They permit formation of a structure that is able to lower the Coulomb barrier and dissipate the energy by emission of low energy photons from the nucleus. The theory shows how helium, tritium and deuterium are made by the fusion process, what conditions are required for the process to work, and identifies engineering variables that are needed to control the process. "
What does high packing of hydrogen above 95% into a palladium lattice or into a porous nickel fuel particle do in the LENR process or the cracks and pits of any metal lattice? In the quantum mechanical world because of the Heisenberg Uncertainty Principle(HUP), if an object's position becomes sharply defined then its momentum becomes highly uncertain, and vice versa. Thus, if we cool atoms down, the momentum of each atom decreases, and the quantum uncertainty of its position grows. Instead of being able to pinpoint where each atom is, we can now only see a blurry space somewhere within which the atom must be. At some point, the neighboring uncertain positions of nearby atoms start overlapping and the atoms lose their individual identities. Surprisingly, the distinct atoms become a single entity, and behave as one coherent unit. When a gas is forced into a confining volume inside a metal lattice, the gas gains energy from the HUP. But that energy is carried off by the lattice and the gas cools. As additional gas is forced into the confining lattice, and its associated energy gains are cooled by energy transfer away from the volume, the gas becomes increasingly coherent. The lattice acts like the compressor in a refrigerator. The compressed gas cools to a point where the individual gas atoms loss their identity and become a single waveform...in effects a single atom. This superatom can not tolerate a mixing of individual positive a negative charges inside its super nucleus, so a critical point is reached when the positive and negative charges of the protons and electrons separate. The separation of the charges increases the loss of kinetic energy and this energy... the last bit of kinetic energy from the individual atoms, is removed from the nascent superatom in Bremsstrahlung as the individual electrons wiggle their way out of the newly forming super nucleus. This burst of gamma rays are what we have seen in the segment 7 radiation bursts in some MFMP experiments and in early Rossi reactor startups. These electons form a coherent cloud of negative charge that orbits around the newly formed composite positively charged superatom nucleus that has a combined composite spin producing a anapole magnetic field...a super-radiant monopole magnetic field. What that compression of gas into the metal lattice has generated for us is a new particle...a quasiparticle...a Bose condinsate...a superconductor that serves the same function as the Anisotropic magnets do in LENR. This new particle acts as a molecular Anisotropic magnet that produces the special kinds of spinning vortex like magnetic fields that will excite the protons and neutrons in nearby atoms to decay under the auspices of the weak force. Now we see strange mesons that turn into pions and than muons. In this bath of weird and uncommon sub-atomic particles, we see protons turn into neutrons, muon catalyzed fusion of light atoms and fission of heavy atoms, and then transmutations of every kind based on the random configurations of the atoms in the vicinity of the subatomic particle shower. On Tue, Oct 25, 2016 at 3:28 PM, Axil Axil <janap...@gmail.com> wrote: > The posit of this post is that anisotropic magnets produce the LENR > reaction because the unbalanced field lines being a monopole field produces > magnetic field lines that tend to be twisted thus producing excitation in > the nucleons via CP symmetry breaking. Their Color force having been > excited by twisting magnetic field lines, the proton and neutron will decay > under the influence of the weak force. > > These monopole field lines allow the magnetic field lines to be twisted > thus producing excitation in the nucleons. Magnetic dipole fields do not > make twisting field lines easy. Dipole magnetic field lines are continuous > and unbroken, forming closed loops. Magnetic field lines are defined to > begin on the north pole of a magnet and terminate on the south pole. Dipole > magnetic field lines don't have any open ends to twist but monopole flux > lines can twist and rotate. > > As a set up for this post here is info About Neodymium Magnets(NIB) > > Overview of the operating properties of Neodymium magnets. > > Neodymium magnets (also known as rare earth, Neo, NIB or NdFeB magnets) > were invented in 1982 and are the strongest type of magnets. > > There are two basic ways that NIB magnets are made: sintered and bonded. > > Sintered NIB magnets have the highest strength but are limited to > relatively simple geometries and can be brittle. They are made by pressure > forming the raw materials into blocks, which then go through a complex > heating process. The block is then cut to shape and coated to prevent > corrosion. Sintered magnets are typically anisotropic, which means they > have a preference for the direction of their magnetic field. Rare earths > align the spin of the magnetic metal in a preferred direction or "grain" > Magnetizing a magnet against the “grain” will reduce the strength of the > magnet by up to 50%. So commercially available magnets are always > magnetized in the preferred direction of magnetization. > > Bonded NIB magnets are typically about half as strong as sintered magnets > but are less expensive and can be made into almost any size and shape. Raw > materials are mixed with epoxy as a binder, pressed into a die cavity and > heat cured. Bonded magnets are isotropic, which means they don’t have a > “grain” or a natural preference for the direction of their magnetic field. > > For example, Dennis Cravens Golden balls > > infinite-energy.com/images/pdfs/NIWeekCravens.pdf > > "To assure a strong magnetic field in the active material the spheres > contain a ground samarium cobalt (Sm2Co7) magnet, which stays magnetized at > higher temperatures. This was powdered and the powder is mostly random but > it should provide a strong magnetic field within the sample. "The Sm2Co7 > magnet produces the required anisotropic magnetic field lines(monopole like > magnetic field). > > Deuterium is used as the gas envelope > > Here is a visualization that demonstrates that rare earth magnets produce > vortex twisting of their magnetic field lines whereas dipole magnets do not > produce magnetic vortex spinning field lines. > > https://www.youtube.com/watch?v=UIlijUSJMmg > > On Tue, Oct 25, 2016 at 1:45 PM, Jones Beene <jone...@pacbell.net> wrote: > >> Thanks… and it can be added that Wiki now has an entry for proton decay. >> >> The Holmlid effect can be described as an enhancement mechanism for >> proton decay… which is a hypothetical form of radioactive decay in which >> the proton decays into subatomic particles, mainly pions. There is >> currently no experimental evidence for it, indicating that protons will >> not decay on their own, but this does not mean they cannot be forced to >> decay by another outside mechanism, such as Holmlid has found. >> >> *From:* H Ucar Paper is available from >> >> *http://sci-hub.bz/10.1142/S0218301316500853* >> <http://sci-hub.bz/10.1142/S0218301316500853> >> >> ============================= >> >> Holmlid: … pions are observed by their characteristic decay times of 12, >> 52 and 26 ns after impact of relatively weak ns-long laser pulses, as >> reported previously. >> >> >
