Black Holes as Resonant Neurons and Dimensional Tuning Forks in the Hawkins Omniversal Theory: An Informational Resonance-Based Framework for Gravitational Modulation, Time Dilation, and Dimensional Coherence

This publication introduces a new theoretical development within the Hawkins Omniversal Theory (HOT), expanding upon previously established resonance-based cosmology, gravitational dynamics, and information field structure. Here, black holes are redefined as resonant neurons—phase-regulating, information-emitting nodes within the Cosmic Field Network (CFN). These entities no longer function solely as gravitational sinks, but as structured regulators of dimensional coherence, time perception, and informational flow across the Omniversal resonance field.

This paper extends HOT Principle 6, formalizing it by integrating resonance-phase interference models with fractal harmonic structure and observer-dependent time modulation. It introduces two HOT-modified equations: a vibrational time-perception model that scales with phase misalignment, and a structured emission function modeling black holes as resonant sources of coherent information. These formulations unify gravitational, quantum, and informational behavior under a resonance-based framework and provide mechanisms for dimensional transition, nonlocal coherence regulation, and time dilation variability.

The black hole model presented here is built upon prior HOT work published in February and March 2025 (DOIs: 10.5281/zenodo.14947489, 10.5281/zenodo.14948118, and 10.5281/zenodo.15086468), and remains fully compatible with the energy-frequency scaling, modified Schrödinger formulation, and informational curvature tensor described in those publications.

Key contributions of this work include:

A redefinition of black holes as fractal harmonic structures that function analogously to biological neurons—emitting, storing, and regulating information in the form of phase-encoded gravitational resonance.

A resonance-phase interference equation for time perception, replacing general relativity’s purely geometric time dilation with frequency-based entrainment dynamics.

A wavefunction-based emission model that links surface entropy and curvature to the coherence of resonant information emissions, consistent with HOT’s informational field theory.

A synthesis of HOT’s fractal harmonic resonance with large-scale dimensional architecture, offering a predictive framework for interdimensional transition, observer-relative time distortion, and field coherence breakdown.

Experimental predictions that include gravitational wave interference anomalies, nonlinear time dilation near high-mass curvature nodes, and fractal clustering in black hole distribution patterns—providing multiple paths for empirical falsifiability.

An extended conceptual framework positioning black holes as key regulators in the weakening of dark energy, aligning with HOT’s prior predictions and supporting the 2025 DESI findings.

This paper forms the foundation for future HOT-based investigations into the intersection of cosmology, cognition, and coherence mechanics. It preserves the integrity of previously published equations while offering a natural and necessary correction to the role of black holes in gravitational, informational, and dimensional physics.

This document is released as a structured public version for scientific review, research collaboration, and theoretical development. It is intended to complement previous HOT publications and establish a rigorous foundation for the exploration of resonant cognitive structures in the fabric of space-time.

Version History:
Version 1.0 – Initial public release of Black Holes as Resonant Neurons and Dimensional Tuning Forks in the Hawkins Omniversal Theory

Related Works:
Hawkins Omniversal Theory – DOI: 10.5281/zenodo.14947489
15 HOT-Modified Equations – DOI: 10.5281/zenodo.14948118
Gravitational Resonance and Informational Curvature – DOI: 10.5281/zenodo.15086468
Resonance-Based Gravity and DESI Prediction – DOI: 10.5281/zenodo.15099163

Creator
Hawkins, Michael James – Hawkins Omniversal LLC

Contact Information
contact@hawkinsomniversal.com – General inquiries and theoretical discussions
collab@hawkinsomniversal.com – Research partnerships, peer review, and institutional outreach

© 2025 Michael James Hawkins, Hawkins Omniversal LLC. This work is licensed under the GNU General Public License v3.0 (GPL-3.0). Full license text available at: https://www.gnu.org/licenses/gpl-3.0.en.html