Abstract

This paper formalizes a universal, particle-free mathematical blueprint derived from the Dimensionally Extended Holographic Projection (DEHP) model. Operating on the foundational axiom that all macroscopic phenomena—whether manifesting as gravitational fields, baryonic matter, computer logic, or supply-chain routing—are phase-locked oscillations (sine waves) on a continuous, two-dimensional viscoelastic pre-geometric phase fluid substrate (z=0), we define a unified multi-variable transformation template that bridges this deep informational layer to the projected three-dimensional volumetric bulk. Instead of relying on classical energy extraction or brute-force material engineering, this framework introduces information-load impedance modulation to regulate reality's metric fabric without inducing thermal or baryonic stress backlashes. By mapping a localized Computational Saturation Index to a rigid boundary throughput limit, we introduce a non-linear Confinement Tension Tensor that derives flat galactic rotation curves and resolves the collisionless overshoot of the Bullet Cluster via pure fluid phase momentum, completely replacing particle dark matter with the Substrate Pushback Principle. We explicitly project this universal sine field template across four distinct operational domains: macro-planetary engineering, cymatic computing architectures, bio-acoustic molecular synthesis, and socio-technical logistics. Finally, we define explicit, grounded empirical falsification protocols using standard laboratory infrastructure—including dual-arm laser interferometry and piezoelectric micro fluidics—to experimentally validate this framework below the classical Landauer thermodynamic limit.

Creative Commons License

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 License.

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