The Relationship Between LENR and Waveguides

Seems we are still looking at what LENR can do=

a few think its a reaction that can heat water

a few think its a long lived very low reaction

the vested effect as a power systems would need to be accumulative to harvest as a slow reaction.

a waveguide as a EVO may help if the reaction can not heat water.

US020180322974A120181108 (storage.googleapis.com) From [0136]

"For example , a waveguide is a receiver for electromagnetic energy. Dimensions within the waveguide determine the wavelength and therefore the energy of light in resonance in the waveguide. Therefore, one can calculate dimensions to accumulate high energy phats of the hydrogen ionization. The dimensions are at the nano - scale. If one accumulates both phats and hydrogen in pre - nuclear states with the waveguide one expects a cluster of neutrons or neutron - like pre - nuclear states within the wave guide . The LENR literature refers to nuclear active environment . The author's calculations suggest that Miley's patents US20130044847 and US2011 / 0005506 make nuclear active environments which may be active to make neutrons within a waveguide. By designing materials to create higher densities of waveguides, one expects higher densities of nuclear active regions or pockets of neutron like matter. A wave guide has the advantage of accumulation of specific electromagnetic waves . Hydrogen is supplied by absorption to the material of construction of the waveguide . A shift in mass equilibrium occurs when the hydrogen concentration gradient changes. The space available for reaction is limited by the nano - scale dimensions of the waveguide. The accumulated pre - nuclear atoms can react with the material or media of the waveguide."

Simplified: The magic of LENR at the surface of metals like Pd requires layers of metal not be aligned in perfect crystals. This miss alignment creates waveguides for high energy photons that would not otherwise be available. These waveguides absorb specific wavelengths of light called phats of hydrogen ionization. These phat are a mean for hydrogen ionization to provide high energies photons that can cause nuclear reactions. Otherwise the energies available near room temperature are too low to cause nuclear reactions. When high energy phats are absorbed to hydrogen in the waveguide, UDH is formed. When enough UDH forms in the waveguide, the wavequide becomes a nuclear active environment (NAE). The NAE then will cause atoms of the metal to fuse and then fission. See product characteristics and energetic in thin-film electrolysis experiments by George Miley in ICCF-7. Also see the supporting paper by Hora also in ICCF-7.

Seems its just a matter of time before someone gets a relationship working.

A faster discharge rate moving through the wave guide- magnetics driving the reaction to push it to nuclear ect.

working with the climate driver and magma type reactions, relationship to help think it out.