Light grows latticework in the direction of its propagation, via its percolation, and then its refraction. When entanglement is involved, light creates a superlattice in the direction of propagation. This latticework is the result of the action of the percolation of light through lyotropic aether, as opposed to the subsequently refracted transverse light energies.
This is a better way to describe two phase or two mode light, than the way I have used in the past. I’ve been describing two-factor light as a self aligning, self propagating effect, akin to the lyotropic crystal alignment that happens in LCD monitors. But – it’s more than just an alignment – it’s literally the creation of a lattice framework in a way analogous to the well known elemental crystallography associated with physical chemistry. It’s just that it happens in lyotropic aether as opposed to normal matter.
The magic angle of 1.1 degrees misalignment is what creates superlattices in the types of crystals used for generating entangled photons. The same 1.1 degree angle creates a superlattice in graphene, which subsequently leads to paramagnetism effects and to superconductance. So, light in transit is not necessarily a superlattice creator, but causes only lattice alignments when the magic angle is not involved.
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
I have been covering the magic angle of superconducting and entanglement generating gr@phene in the past few posts. The magic angle, which is 1.1 degrees, is the same for superconduction as it is for entanglement generation. This puts the two phenomenon (entanglement and superconduction) on par with one another, meaning that both are classically driven mechanisms. If superconduction can be described classically, then by virtue of the common magic angle, so too can entanglement be described classically.
There is a pun in the title.
For whatever reason, aether percolation requires a 1.1 degree entry angle. The dipole moments of the originating crystal must be directing the flow of energy, but that direction (for whatever reason) needs to be biased with a slightly non-linear flow in order to induce self assembly and propagation in lyotropic aether. So, the energy becomes a tight spiral or “vortex” of percolating moments of energy-momentum in the aether. The natural mode of this vortex is in longitudinal moments of energy, but these longitudinal moments are induced to have a very slight boucing action inside of the waveguide of the originating crystal lattice, and subsequently of the lyotropic aether.
It is the idea of aether-scale/ atomic scale percolation that is responsible for the seeming invisibility of the energy forces that connect entangled objects. Most lab measurement devices depend on the “human scale” macro world measurement schemes of charge, voltage, current, and such, which require a build-up of many energy moments in order to be detected at all. The tiny circuit flows of lyotropic aether traces or filaments are undetected by lab devices built to measure built-up charges and transverse waves.
The transverse waves we normally detect with conventional equipment are directed by the waveguide of the larger cross-section of bunched filaments in the aether, as compared to a single filament, due to the well-known pinch effect and the tendency for bunching to occur within many closely-packed traces of percolating energy. Inner vortexes tend to pull outer ones along, until a (human scale) tranverse wave can be guided by the composite alignments. Most of the energy is tranferred by the secondary wave (the transverse wave) because the magic angle restricts the direct-flow energy to a few moments (we may call them “photons”) that are in alignment with the crystal – while the balance of the energy is transferred via the waveguide effect and the resulting transverse form. The waveguide mechanism is refraction, which creates a so-called discontinuity in the aether, and supports the transverse flow of energy. This discontinuity is directly analogous to the discontinuity that exists at the ends of resonant antennas.
Note that the base mode for propagation in the outer-band refracted transverse wave is also longitudinal, consisting of many refracted slow-c (amorphous-like) filaments whose energy is in the form of native longitudinal force. It is the larger waveguide of the composite, rather than the singular waveguide of the aether trace, that guides the transverse wave.
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.