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Main Author: Goll, Gerald
Format: Recurso digital
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.19358387
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author Goll, Gerald
author_facet Goll, Gerald
contents <p>This work forms part of the Information Boundary Physics (IBP) framework, a unified theoretical approach investigating the geometric and informational structure underlying spacetime, quantum behavior, and cosmological phenomena. The present paper introduces the five-dimensional overcarrier as a collapsed-interval geometric substrate and develops frequency-channel multiplexing as a mechanism for resolving the dark sector. It builds upon prior IBP work addressing the Meta Field Substrate, Causal Resolution Architecture, Minimal Information Boundary, and Frequency Channel Structure. Within this framework, the observed ~6% baryonic fraction of the universe is interpreted as a single accessible frequency channel, while the remaining ~94% arises from the same overcarrier-level structure and boundary contributions as our own channel, rather than undetected particulate matter. The paper provides a Lagrangian and field equation formulation of these concepts and identifies testable implications for dark matter detection, gravitational structure, and quantum entanglement.</p>
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institution Zenodo
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publishDate 2026
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spellingShingle The Five-Dimensional Overcarrier Architecture: Multiplexing, Composite Channel Formation, and the Resolution of the 94% Problem in Information Boundary Physics
Goll, Gerald
<p>This work forms part of the Information Boundary Physics (IBP) framework, a unified theoretical approach investigating the geometric and informational structure underlying spacetime, quantum behavior, and cosmological phenomena. The present paper introduces the five-dimensional overcarrier as a collapsed-interval geometric substrate and develops frequency-channel multiplexing as a mechanism for resolving the dark sector. It builds upon prior IBP work addressing the Meta Field Substrate, Causal Resolution Architecture, Minimal Information Boundary, and Frequency Channel Structure. Within this framework, the observed ~6% baryonic fraction of the universe is interpreted as a single accessible frequency channel, while the remaining ~94% arises from the same overcarrier-level structure and boundary contributions as our own channel, rather than undetected particulate matter. The paper provides a Lagrangian and field equation formulation of these concepts and identifies testable implications for dark matter detection, gravitational structure, and quantum entanglement.</p>
title The Five-Dimensional Overcarrier Architecture: Multiplexing, Composite Channel Formation, and the Resolution of the 94% Problem in Information Boundary Physics
url https://doi.org/10.5281/zenodo.19358387