Percolation Builds a Tessellated Waveguide

 

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.

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Energy Propagation and Irreptile Geometry

 

All energy propagation involves the irreptile self-similar inward assembly of a triangular/hexagonal repeating geometry of nodes in the aether.  It may be that Lee Sallows deserves a Nobel prize in Physics/Mathematics for observations he made in the realm of tessellation and irreptile geometries (infinitely nested hexagons, with a few leftover triangles (that make it technically an incomplete tessellation). He has nothing to do with me or my sites. He does not know me, nor I him. He might not agree with my postulations and (some call crazily esoteric) rants about physics.  If he knew me, he might think I’m a nut.  But, his observation (published in Mathematics Magazine) was the last nail I needed to build out my theory on the lyotropic aether. Technically, the self similar, inwardly repeating geometry is not irreptile tessellation because the initial tiling leaves gaps. However; it IS infinitely self nesting. That’s all that is needed.

I needed something to make the “body” of the Wilburforce Pendulum. In my mind I saw the filaments of self-assembled lyotropic aether, but needed those to act collectively to produce the alternating rotations of the Wilburforce pendulum. Lee has provided the critical piece of information needed to make the whole assembly reasonably feasible.  I had initially thought that the effects of “bunching” and “pinching” could explain the pendulum, but those are nebulous terms.  Irreptile assemblies do have the strength to hold up the theory, perhaps.  Incomplete hexagonal tessellations seem to play well with my most recent thoughts connecting general energy propagation to quantum entanglement and crystallographically defined percolations. We are NOT talking about waves here.  Nothing in this post is about waves.  It’s all about longitudinal percolations with angular momentum, at an atomic scale many magnitudes below an atom.  The reason I needed an aggregator such as bunching, pinching, or self similarity is that a single  filament of self assembled lyotropic aether could not drive an atom by itself.  It needs to be bunched by at least 1 order of magnitude (more on that later).

Did you ever wonder why DC current does not produce radio waves? I have.  To the regular electrician or engineer such a statement falls into the category of stuff involving a suspension of disbelief, or pseudo science. But, force is force, so why does it need to alternate in order to propagate across the expanses of the spaces around us?  No reason understood, until now.  Thanks Lee.   

The Wilburforce pendulum is a phase shifting device.  One end of the pendulum circuit is always 180 degrees out of phase with the other, just as in quantum entanglement.  Without the phase shift, it doesn’t work.  Either an alternating current drives the phase shift in a single-ended way, or equal and opposite reflexes allow the pendulum to work in a free style way.  One might say that the pendulum causes its own phase shift by the nature of its construction.  This is true, but only works when the connection is at parity on both ends (a strong response exists, coming from the other end of the propagation circuit).   Else, the pendulum would either get stuck at 180 degrees or rotate in one direction, breaking the nodes of the transit path to the receiver.  The receiver must connect in a node-to-node percolation manner, not breaking the “spring” of the pendulum.  Not all connections are entangled ones, but when there is a quantum entangled connection, there is enough response from the other end of the circuit to make the pendulum work in a free style way. 

This is a bit of a modification of what I recently postulated as the cause for rotation in the Wilberforce pendulum.  Most of what I stated about that aspect of propagation (that the crystal always starts the rotation in the same direction), I think is still valid.  Most transfer is heavily one-ended, but in the case of quantum entanglement, where the efficiency is so much greater (due to the hexagonal crystals used as transmitters) – the other end of the connection is sufficiently synchronized to act as a true free space Wilburforce pendulum.  Without the quantum entanglement, the propagation is a sort of half Wilburforce pendulum, a bit like a half wave rectifier circuit.  The difference between regular energy propagation and quantum entanglement is simply efficiency.

Due to the added efficiency, the quantum entangled connection is a fully operational free space Wilburforce pendulum, while regular propagation is driven in a mostly single-ended way, helped by the phase shift of the source to compensate for the lack of response from the other end.  In the case of the entangled connection, there is much higher reciprocity, and synchronization.

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.

 

Quantum Batteries

 

Charge your car once when you buy it, and never again until that day, fifteen years later, when you take it to the trash heap? It’s all coming in the Quantum battery. I have been postulating about hexagonal self-similarity recently, tying it into quantum entanglement, energy transfer across the aether, and the building of atoms. The quantum battery is just an extension of those ideas.

If the atom is built with the irreptile form of nested hexagonal tetrahedrons, then perhaps it is possible to build an “artificial” version of an atom. Consider that the most energy a human can get to do his work is confined inside an atom. Consider that the Hiroshima event that released so much energy all at once was a crude release of this energy in a barely controlled way. What if that energy could be leaked into and out of a quantum battery, but much more slowly. The energy might last the lifetime of the car using such a quantum battery  to power it.

The atom is the main store of energy for humankind.  A little bit of energy can be stored into molecular arrangements of atoms, and then used later (combustion of gasoline is one example of this).  This uses inter-molecular forces, rearranging the outer electron shell (valence) configuration to get a tiny bit of energy from atoms, in an aggregate way.  But, the bulk of the energy is inside the atom.  The quantum battery taps the full energy of an “atom”, rather than the outside shell energy related to (for instance) gasoline combustion.

The atomic shells of the hypothetical irreptile-tetrahedron based atoms are very dense, energetically speaking. That’s why it takes so much energy to crack them open.  This pounding of atoms with a hammer is crude and dangerous, but is what war making nuclear devices do. Peaceful energy extraction must be more subtle.

It may be possible to develop a quantum interface to tap an atom’s energy slowly.  Alternatively, we might construct a sort of artificial atom, built with an Achilles heel back door to allow easier ingress and egress of stored energy.

The study of the hexagon leads to a quantum battery.  The irreptile capability of the hexagon, producing ever smaller nested images of itself, within a hypothetical tetrahedron atom, gives rise to the quantum battery.  All energy store that is atom based is also network based, as the energy transits the topology of the crystal and the nodes it contains. 

My theory is that sub-atomically, the same thing happens.  Theoretically, the nesting continues forever, meaning there is an endless supply of transit routes and nodes to contain endless energy.  One atom could power the universe.  Not.  Obviously, there is a limit to the nesting, and it is what I call the aether plank limit.

A quantum battery would not really hold a Hiroshima level of energy.  There is a misconception about atomic energy, and how much there is inside an atom.  A thousand nuclear fusion events on the tip of your finger is something you would not feel, and not because you were obliterated.  It’s because the energy in an atom is large compared to intermolecular forces, but still relatively small.  Hiroshima happened only because there was a chain reaction involving many trillion and trillions if atoms (would use a bigger word, but nobody would understand).  So the “chain reaction” is what we’d be looking to control in the quantum battery.

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 ques

Tetrahedron Atom Revisited: Irreptile Tesselation

 

For some time I have been considering that a special case of the Goldberg tetrahedron could explain the structure of an atom. Lately I have been looking into the self-similarity of geometric shapes, but especially a tetrahedron of the type that is a hexagonal facet based pseudo-sphere. I tend to have my own lexicon and syntax for these things, because I’m not formally a mathematician or physicist. However; I think I can paint my images to the liking of a colloquially tending audience.

The hexagonal form is one of a few geometries that can be dissected into an infinite number of smaller copies of itself. The hexagon can be tiled into six equilateral triangles, which can be dissected into a regular hexagon. Thus, the hexagon is infinitely tile-able to ever smaller self-similar hexagons, to the limit of the infinitesimal. This is something mathematicians call an irreptile tessellation.  There was a write up of this in Mathematics Magazine some time ago.  This facet of the hexagon is a great fit for the specification of an atom!

Consider what I have been writing about the aether, and energy propagation, and quantum entanglement.  Consider that I have associated all of those things – really the whole universe – with a crystallographic definition.  In other words, the kinetic energy reflexes that define the dipole moments and the nodes of energy exchange within a mass do not stop at the edge of the mass, but continue on with a different topology (that of the aether).

Consider that all known ways to entangle photons rely on crystals.  Why is that?  Well, it could very well be an efficiency thing.  The triangle and the square can be tessellated, but tests of crystals with those base geometries show entanglement efficiencies of less than half of what is observed in hexagonal crystals.  Probably, I could surmise that the infinite tessellation of the hexagon is better that the tessellation of the square or triangular form, because it comprises all of them.  In other words, there are more network topologies available in the self similar hexagon than any other crystal formation.

So, an infinitely tile-able self-similar network topology has an S-TON of nodes and energy transit points.  The network paths of such an inwardly reaching nested crystal might store a helluva lot of energy.  What does an atom do? It stores a helluva lot of energy.  It would be more akin to a capacitor or battery than what academia currently says it is.

Linus Pauling saw an angular universe, mostly made of lines and the angles those lines subtended.  I agree with him on this.  All energy transfer in the universe, and all matter, is a product of these lines and the angles subtended by them.  The atom is an approximation of a sphere, but is a hexagonally fashioned tetrahedron with infinitely nested networks within.

Hexagons do more than just play a part in a possible definition for atoms. They play well with the transit of light and energy in general.  Entangled photons are connected by the multiple energy paths of a tessellated crystal (in almost all cases, a hexagon).  So, the more the tessellation, the higher the probability of entanglement.  More on this to come …

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

The Aether’s Right Hand Rule

 

We have one rule to guide them all: the aether’s right hand rule. Over the past several years, I have posited a number of things about the aether, and its attributes and properties, how it propagates light, and other things. I started with the idea of a lyotropic aether (one that can dissolve and reform) – giving it the “structure” of a liquid crystal when undergoing the impact of a moment of light, where the aether self-structures and self assembles along the trajectory of a ray of light. 

I made this model fit primarily with the observed behavior of entangled photons, which seemed to indicate that the self-structured aether must support angular momentum.  I then observed a possible analog to the mechanism which must support angular momentum, in the form of the Wilburforce pendulum.  But, in all of this, I could give no good reason for the torsion (rotation) to exist, because my model assumed a straight forward hexagonal crystallography would sufficiently define the aether.

I thought of many things that could drive the rotation, but all of them failed the basic test of trajectory reversal. For instance, the universe has a spin itself, as it spirals outward and expands.  But this force exerts an outside influence, which fails when the trajectory direction is reversed.  I realized that whatever explained the right hand rule (at a deep physics level, not electrical theory level) – would also explain the rotation of the aether energy propagation.

Then it struck me: it’s not an outside influence, it’s an inside one.  The rotation has to do with the crystallography of the aether itself.  It’s a non-linear crystal! Non-linear crystals can be bifringent, meaning they can support multiple network node topologies simultaneously.  Such crystals have short paths and long paths (node to node).  This difference makes non-linear crystals asymmetric, and the asymmetry promotes a spin in the direction of the long-path percolations. Note we are talking about longitudinal percolations here, and not waves.

The reader may interject that this idea also suffers from the reversal problem, but it does not.  Because it is the light itself that initiates the self propagation, and self assembly, it is that light that sets the initial angular momentum (“direction”) – entirely based upon the crystallography of the built path as it is built, which is always the same, regardless of whether there is a “reversal” or change in orientation.

Since the self-building energy paths always take a lopsided-ness based on trajectory, all rotation is W.R.T. that trajectory.  This asymmetry is born of the longer path that one “node-set” traversal takes as compared to the shorter path opposite of it. The longer path loads more energy, and therefore puts torsion on the transit pathway, and the energy flowing through it.  The angular momentum will always be with respect to the trajectory, and therefore can explain the right hand rule.

For the purposes of generating an aether echo-device (Wilburforce pendulum) entanglement scenario, a magic angle of 1.1 degrees seems to be needed, or at least is very much an efficiency boosting factor for the entanglement.  This is in agreement with the idea of a staggered-structure, self-assembling aether,  because a perfectly linear lattice would tend to rotate in either direction.

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

 

The Universe: Lyotropic Crystal, Self Assembly

The universe is composed of lyotropic crystal that self assembles. Some of this “crystal” assembles easily, some of it assembles with more difficulty, but it all assembles at some level of temperature and pressure. I have been writing much about the lyotropic aether, and its relationship to self assembly of energy paths, but in reality, the universe is entirely a crystallographically defined thing.

When we think of crystals, we think of shiny objects like diamond, glass, and ice. These are things which exhibit a regularity in the way they “self assemble” – such that there is alignment in their structures and therefore light transits them or reflects from them in ways we find appealing. They are shiny.  But, within a more generic context, everthing is a crystal (sort of).  The periodic table of Linus Pauling has atomic mass and number, but it also has a crystallographic annotation, one for every element in it.  Linus was particularly enthralled with that annotation.  At some point he described his life’s work as an investigation of the crystallographic nature of mass.

 When some things precipitate into crystals, they do so in a regular way, like neatly stacked boxes, all of the same size.  Other crystallographically defined structures are not neat and cubic, and may result in aggregate structures that tend towards creation of an amorphous greater mass.  When the structure of the mass is of a certain type, it self assembles with more regularity, and with a tendency to propagate itself forward in a linear (straight, line-like) way.  This tendency is a direct result of the material’s base structure and its effect on the way energy propagates thru the material.  It’s the energy propagation that drives the direction of the self assembly.

This all lines up neatly with my view of the lyotropic aether.  It’s the energy propagation that is the result of the structure that drives the direction of propagation, be it mass self-assembly or self-assembly of the energy paths themselves.  The air around us is full of wannabe crystals (of oxygen, nitrogen, etc) – separated by an excessive energy level – relative to the bonds that would normally cause them to form structure.  Devoid of this energy, our atmosphere would be a solid block, encasing us all within it.  The atmosphere would “self assemble” all at once.  

I envision the aether’s granularity (i.e. the relative distance between the network nodes of a lyotropic material’s structure) – to be far smaller than the atomic scale. Very much smaller.  Its lyotropic crystal nature is linear, with a stronger tendency towards self propagation via linear self-assembly than any mass object. The crystallography of the universe includes its space, and does not stop at the boundaries of its matter.  Energy path self assembly is crystallographically driven propagation, making all of the universe internally consistent.  The hexagonal crystal form drives this propagation best. 

The propagation of energy thru a material is not really linear, as stated.  It is a percolation that traverses the network topology of the material, defined by its crystallography.  So, it warbles a bit.  Additionally, it gains angular momentum by virture of the nesting of multiple paths, and the binding of same.  Therefore, my conjecture is that energy transfer may more closely mimic a Wilburforce pendulum (swinging back and forth) – than being a perfectly linear phenomenon.  Additionally, there are multiple network paths thru many mediums, and those contribute to superlattice structures that are destined for a future post.

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