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Main Author: Fernandez, Adrian G.
Format: Recurso digital
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.19520339
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author Fernandez, Adrian G.
author_facet Fernandez, Adrian G.
contents <p>This work presents a rigorous mathematical formulation of white-hole-like phenomena within the Cosmological Thermosynthesis Theory v3.2 (TTC v3.2). While classical white holes arise as time-reversed solutions of the Schwarzschild metric in General Relativity, TTC v3.2 reinterprets them as emergent structures originating from entropic crystallization events in the<br>primordial etherion superfluid—an ultralight scalar field with mass me = (1.00±0.05)×10−22 eV. We demonstrate that the “Universal Hypernova”—the cyclic bounce mechanism at the end of each cosmological cycle of duration T = 24.93 Gyr exhibits observational signatures analogous to white-hole emission: outward-directed matter/energy flux, infrared-dominated<br>spectra from dust-obscured ejecta, and non-thermal particle acceleration. Integrating recent observational constraints from JWST (early massive galaxies at z > 10), LIGO-VirgoKAGRA (gravitational wave backgrounds), and Euclid (large-scale structure), we derive falsifiable predictions for next-generation surveys. All definitions specify domains, codomains, hypotheses, and mathematical spaces; lemmas and propositions are formally proved. The framework maintains strict epistemological boundaries between physical predictions and philosophical projections</p>
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publishDate 2026
publisher Zenodo
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spellingShingle Cosmological Mechanics and White-Hole Analogues Within the Cosmological Thermosynthesis Theory v3.2: Emergent Time-Reversed Structures from Etherion Superfluid Dynamics
Fernandez, Adrian G.
<p>This work presents a rigorous mathematical formulation of white-hole-like phenomena within the Cosmological Thermosynthesis Theory v3.2 (TTC v3.2). While classical white holes arise as time-reversed solutions of the Schwarzschild metric in General Relativity, TTC v3.2 reinterprets them as emergent structures originating from entropic crystallization events in the<br>primordial etherion superfluid—an ultralight scalar field with mass me = (1.00±0.05)×10−22 eV. We demonstrate that the “Universal Hypernova”—the cyclic bounce mechanism at the end of each cosmological cycle of duration T = 24.93 Gyr exhibits observational signatures analogous to white-hole emission: outward-directed matter/energy flux, infrared-dominated<br>spectra from dust-obscured ejecta, and non-thermal particle acceleration. Integrating recent observational constraints from JWST (early massive galaxies at z > 10), LIGO-VirgoKAGRA (gravitational wave backgrounds), and Euclid (large-scale structure), we derive falsifiable predictions for next-generation surveys. All definitions specify domains, codomains, hypotheses, and mathematical spaces; lemmas and propositions are formally proved. The framework maintains strict epistemological boundaries between physical predictions and philosophical projections</p>
title Cosmological Mechanics and White-Hole Analogues Within the Cosmological Thermosynthesis Theory v3.2: Emergent Time-Reversed Structures from Etherion Superfluid Dynamics
url https://doi.org/10.5281/zenodo.19520339