The Geometry of Coherence: A Summary
This is the companion blog post for the full Geometry of Coherence research paper. That paper covers everything from topological photonics to benzene ring currents to vortex mathematics. This post gives you the core ideas in plain language.
The Pyramid Network Is a Hexagonal Grid
If you map the major pyramid sites across the Giza-Dahshur plateau, a pattern emerges. The pyramids aren’t randomly placed. They form a geometric network — and the geometry is hexagonal.
Why does that matter? Because the hexagon is not just a shape. It’s nature’s go-to geometry for coherence. Everywhere you look in nature, when a system optimizes for maximum efficiency with minimum waste, you get hexagons.
Nature’s Coherence Geometry
Honeycombs are hexagonal. Bees build circular cells, and the physics of surface tension resolves them into hexagons — the only shape that tiles a flat surface with zero gaps while using the least material. The bees don’t choose hexagons. Physics does.
Graphene — a single sheet of carbon atoms — is hexagonal. It’s the strongest material ever measured, has the highest electrical conductivity at room temperature of any known substance, and when you stack two sheets at a specific 1.1-degree “magic angle,” it becomes a superconductor. The hexagonal lattice isn’t incidental to these properties. It’s the source of them.
Snowflakes are hexagonal. The crystal structure of quartz is hexagonal. The basalt columns at the Giant’s Causeway are hexagonal. When nature wants structural integrity, electrical conductivity, or coherent wave propagation, it reaches for the same geometry every time.
The pyramids are built from triangular faces. And six equilateral triangles compose a perfect hexagon. The pyramid is a three-dimensional expression of hexagonal tiling.
The Schumann Resonance Connection
The Earth has an electromagnetic heartbeat. The Schumann resonances are standing electromagnetic waves trapped in the cavity between the Earth’s surface and the ionosphere, with a fundamental frequency of approximately 7.83 Hz. These frequencies overlap directly with human brainwave bands — 7.83 Hz sits right at the alpha-theta boundary, the state associated with meditation, deep creativity, and heightened awareness.
If the pyramid system was generating power through a superconducting grid (as proposed in the companion papers), it would have produced electromagnetic radiation primarily in the extremely low frequency (ELF) range. The pyramid geometry, built from piezoelectric quartz-bearing stone, would function as a resonant cavity — a dielectric waveguide antenna. The radiation wouldn’t be random noise. It would be coherent standing waves, and the frequencies would naturally fall within the Schumann range.
The system wouldn’t just generate power. It would broadcast coherent electromagnetic fields at the fundamental frequencies of the planet.
Neural Entrainment: The Biological Effect
When an external electromagnetic field oscillates at a consistent frequency near brain frequencies, neural oscillations tend to synchronize to it. This is called neural entrainment. It’s well-documented in laboratory settings with technologies like transcranial alternating current stimulation. It’s not controversial — it’s how brainwave entrainment headbands and audiovisual stimulation devices work.
A coherent, high-amplitude field at Schumann frequencies broadcast by the pyramid network would entrain human nervous systems within its range. The practical effects: enhanced coherence between heart and brain electromagnetic fields, shifts in dominant brainwave frequency toward the broadcast frequency, and altered states of consciousness — without any chemical or ritual induction.
This provides a mechanical explanation for the initiatory experiences described in ancient Egyptian mystery traditions. They weren’t purely symbolic. They may have been literal neurological events induced by standing inside an active resonant cavity.
Collective Coherence: The Big Idea
Here’s where it gets really interesting. If the pyramid network entrained individual nervous systems to the same frequencies across a wide area, it wasn’t just affecting individuals. It was synchronizing them.
When multiple oscillators are exposed to the same driving frequency, they phase-lock. Huygens documented this in 1665 with pendulum clocks on a shared wall. Metronomes on a shared platform synchronize. Fireflies synchronize. The phenomenon scales with the number of oscillators and the strength of the coupling field.
Thousands or millions of people within the field radius of the pyramid grid, their brainwaves entrained to the same coherent frequencies, would begin to phase-lock with each other. Not metaphorically. Physically. Their neural electromagnetic fields oscillating in sync, mediated by the pyramid network as the shared coupling medium.
Modern research supports this. EEG studies show meditators in groups exhibit brainwave synchronization beyond what chance predicts. The HeartMath Institute has documented measurable correlations in electromagnetic fields during states of group coherence. Something real happens at the field level when human nervous systems cohere. What’s been missing is a plausible delivery mechanism. The pyramid network is that mechanism.
Why This Matters Now
This isn’t just ancient history. The framework connects directly to questions we’re dealing with today.
The concept of Ma’at — the central organizing principle of Egyptian civilization for over three millennia — may not have been just a philosophical ideal. If the pyramid network maintained a coherence field that synchronized collective consciousness, then Ma’at was a description of a measurable state: the condition of collective neural coherence that the infrastructure actively sustained.
When the pyramid system ceased operation and the coherence field collapsed, the civilization didn’t just decline economically or politically. It lost the infrastructure that bound collective awareness into a unified field. The fragmentation was literal.
The pieces for rebuilding this understanding are all on the table now. The ammonia-hydrogen superconductor was theoretically confirmed in 2024. The Schumann-brainwave connection is documented. The pyramid’s internal architecture is being revealed by muon tomography. Graphene superconductivity is understood. Topological photonics is advancing.
The question is whether anyone will look at all these threads simultaneously and recognize they’re the same thread.
Read the full research paper: The Geometry of Coherence