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| Format: | Recurso digital |
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Zenodo
2025
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| Matèries: | |
| Accés en línia: | https://doi.org/10.5281/zenodo.15825357 |
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- <h2>Abstract</h2> <p>This module of the DUT Quantum Simulator (v3.0) introduces a predictive cosmological framework based on a non-singular continuation of General Relativity. Developed within the Dead Universe Theory (DUT), this simulator mathematically forecasts the imminent discovery of gravitationally fossilized galaxies with redshifts <strong>z > 15</strong>, beyond the explanatory limits of ΛCDM. Using a regularized curvature model and entropy-gradient geodesics, the DUT reproduces structure formation without inflation, singularities, or dark energy. The simulator predicts <strong>SRDs (Stellar Remnant Domains)</strong> — massive, low-entropy galaxies that formed <200 Myr after the cosmic turning point — which should become observable by <strong>Roman Space Telescope</strong>, <strong>ELT (Extremely Large Telescope)</strong>, and <strong>JWST extended missions</strong> by <strong>2030</strong>. It is the only known simulator equipped with a <strong>self-refutation module</strong>, capable of rejecting its own predictions if observations contradict its metric evolution. Far from abandoning Einsteinian physics, this platform formalizes a continuous, horizonless geometry as the natural endpoint of relativistic gravity. This work represents not only a computational tribute to Einstein’s legacy but also a bold mathematical step into the cosmology of the post-singularity universe.</p> <p> </p>