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| Format: | Recurso digital |
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Zenodo
2025
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| Online Access: | https://doi.org/10.5281/zenodo.18008829 |
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Table of Contents:
- <p> </p> <p>The Final Abstract . This research presents the definitive formulation of the Time Pulse Model (TPM), a paradigm-shifting framework that redefines spacetime as a viscous informational platform. We challenge the traditional view of time as a continuous dimension, proposing instead a series of quantized pulses governed by a fundamental frequency \omega_q. By deriving an informational Lagrangian through a modified Action Principle, we demonstrate that the "Hubble Tension" and galactic rotation anomalies (historically attributed to Dark Matter) are not independent crises but emergent phenomena arising from the informational viscosity (\eta) and density coefficient (Z) of the vacuum. </p> <p>Key highlights of this definitive work include:</p> <p>The Physical Origin of Viscosity: We provide a formal coupling between informational viscosity and the Casimir vacuum energy density, grounding the model in established quantum field effects. </p> <p>Dimensional Integrity: The introduction of the Unified Wave Equation, incorporating \hbar and c, ensures rigorous dimensional homogeneity, resolving previous mathematical inconsistencies in temporal modeling. </p> <p>Observational Confirmation: The TPM provides a mathematically consistent explanation for recent JWST observations of mature early-universe galaxies, which challenge standard \LambdaCDM predictions. </p> <p>Cosmological Impact: By accounting for frequency decay over cosmological distances, the model resolves the discrepancy in H_0 measurements, effectively eliminating the Hubble Tension. </p> <p>This paper establishes the TPM as a robust, mathematically unified alternative to the \LambdaCDM model, offering a new foundation for 21st-century cosmology based on the informational nature of time.</p>