Abstract
This technical disclosure formalizes the geometric synthesis of the Dimensionally Extended Holographic Projection (DEHP) model. We present a particle-free, mathematically cohesive alternative to standard general relativity and non-baryonic dark matter. The framework replaces independent fundamental forces with a single fluid-dynamic mechanism: the topological metric embedding of a continuous, two-dimensional (2D) phase fluid substrate (z=0) operating in absolute harmonic resonance (the "Garden State").
Three-dimensional (3D) physical matter (z > 0) is modeled as a localized, high-tension wave crest ("knot") forced outward along a spatial z-axis by an original inflationary puncture flux (\(J_{z}\)). By defining antimatter as a zero-volume, 2D negative wave trough pinned flat to the substrate's underbelly, we elegantly resolve baryon asymmetry, derive lateral 3D gravity from 2D fluid packing limits, and reconcile galactic dark matter wave mechanics with testable astrophysical compactness parameters.
Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 License.
Recommended Citation
Eckes, Christopher L., "The Dimensionally Extended Holographic Projection Model: A Viscoelastic Unified Field Specification", Technical Disclosure Commons, (July 06, 2026)
https://www.tdcommons.org/dpubs_series/10804