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Bibliographic Details
Main Author: Fernandez, Adrian G.
Format: Recurso digital
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.17967702
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Table of Contents:
  • <p>This paper presents a rigorous and comprehensive development of the implications of the 2025 MIT experiment, which confirmed quantum nonlocality through violations of Bell inequalities at 30σ significance using ultra-cold rubidium atoms, for<br>the Theory of Cosmological Thermosynthesis. This theory posits that the universe emerges from a primordial superfluid composed of etherions, an ultralight scalar field with mass me = (1.00 ± 0.05) × 10−22 eV, whose entropic-recursive dynamics<br>generates: diffuse dark matter, phantom dark energy, emergent quantum gravity, resolution of the Hubble tension (H0 ∼ 67–73 km s−1 Mpc−1 ), the cusp-core problem in dwarf galaxies, the fine-tuning of the strong CP problem (0 ≤ ¯θ < 10−10), and a singularity-free cyclic cosmology with cycle duration of 24.93 Gyr. Fully explicit definitions, lemmas, propositions, and theorems are provided with formal, 100% rigorous proofs citing established results. Falsifiable predictions are derived for upcoming experiments at the LHC, DUNE, JWST, LIGO, and XRISM.</p>