Figure 1: I usually make my own graphics, but today I’m lazy and have used a CC share. It’s probably better than what I would have drawn 🙂 .
Quantum percolation builds a tessellated waveguide in aether. It stops expanding when, due to the cyclic nature of the source, it “runs out of time”, and so it exactly corresponds to the geometry of the wavelength of the energy. Partial tessellation occurs in both the whole field associated with the wavelength, and the individual self assembled percolation paths of atom-level energy transits. The former builds a waveguide for the specific wavelength of the transverse wave, while the latter drives quantum entanglement. The former is refracted transverse energy momentum, while the latter is longitudinal and angular-momentum driven by percolation. It is important to note that the transverse waves themselves are constituted from longitudinal percolation paths. The difference is that refracted transverse waves are less likely to engage in the Wilburforce pendulum effect associated with a single atom or photon.
Quantum entanglement happens when the transmitter is particularly matched to the aether’s crystallography. This happens best when the crystallography of the transmitter is a hexagonal crystal. The outer boundary of the tessellation confines refracted transverse energy momentum, while entanglement is caused by longitudinal and angular-momentum driven by percolations at the exact geometry of the atoms involved (or photons).
For a couple years, I have pondered the mechanism that connects the percolation paths that drive atoms at the nano level, with the outer geometries of the transverse wave that results from the self assembling percolation crystallography. Then I stumbled upon the partially tessellated hexagon geometry (written up in Mathematics Magazine some years ago). It’s irreptile self similar assembly, and now makes the theory internally consistent.
The partial tessellation is very important, because it creates a very strong refractive discontinuity to build the waveguide (like an impedance boundary in electrical speak). At the nano scale, the tessellation is confined to the longitudinal moments driven with angular momentum as a result of the percolation paths of the crysallographically defined network topology of the aether. This aether is what some are starting to call a quantum field. But, it’s just crystallography, like lattices built of arrangements of atoms. So, mass is intrinsically connected to energy transit paths that are simply an extension of the crystallography into “space”.
Why would we ever have conceived of a different picture than this? It extends the *real* nature of our environment in a very localized way, devoid of multiple universes and extended dimensions and projections of this or that, or holographic nonsense. It’s very concrete, and very Tesla-like. A quantum signal, a reciprocating signal responsible for quantum entanglement, is a longitudinal percolation with angular momentum. Its cascade of tessellation enlarges to exactly match the atom or photon with which it entangles.
Note: the author is a writer on technical subjects in some areas, of novels, and of other literature, but does not have any formal credentials related to the medical field, or in physics. Thus, this all constitutes an opinion of what might be possible, based on his own hobby-level knowledge quests.