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| Formato: | Recurso digital |
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Zenodo
2026
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| Acceso en línea: | https://doi.org/10.5281/zenodo.18912913 |
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- <p><strong>Overview</strong><br>This repository contains the "Platinum Standard" computational capsule for the Chrono Singularity Unification (CSU) framework. It provides an audit-grade, fully reproducible joint likelihood analysis designed to test the standard <span><span><span><span>Λ</span></span></span></span>CDM null hypothesis against the zero-parameter CSU prediction using the latest observational data.</p> <p><strong>Technical Achievements</strong><br>The suite executes a pre-specified, locked-protocol statistical test combining two independent classes of cosmological constraints: DESI+CMB+DES-SN5YR dark-energy equation-of-state constraints in the <span><span>(w0,wa) </span></span>plane, and the Planck 2018 / SH0ES 2022 Hubble constant measurements.</p> <ul> <li><strong>Joint Likelihood Optimization:</strong> The code reconstructs a conservative 2D Gaussian likelihood for the DESI constraints (optimizing the correlation <span><span>ρ∗</span></span> to minimize the penalty to <span><span><span><span>Λ</span></span></span></span>CDM) and profiles a shared global <span><span>H0</span><span><span><span><span><span><span><span></span></span></span></span></span></span></span></span> parameter across the Planck/SH0ES scale likelihood.</li> <li><strong>Decisive Statistical Preference:</strong> The automated analysis yields a <span><span>Δχ2=37.70</span></span> in favor of the CSU fixed prediction over the <span><span><span><span>Λ</span></span></span></span>CDM null point.</li> <li><strong>5-Sigma Threshold:</strong> Calibrating this <span><span>Δχ2</span></span> to an asymptotic distribution yields a <span><span><span><span>p</span></span></span></span>-value of 3.28 \times 10^{-8}<span><span>, corresponding to a 5.53σ (two−sidedequivalent) statisticalpreference. Furthermore, an </span></span><span><span>empirical Monte Carlo null simulation corresponding to a 5.53σ (two-sided equivalent) statistical preference. Furthermore, an empirical Monte Carlo null simulation (</span></span>N=200,000) confirms zero exceedances.</li> </ul> <p><strong>Significance</strong><br>This capsule is designed for maximum adversarial scrutiny. By locking the inputs, the statistical methodology, and the theoretical predictions (<span><span>a=1.0917</span></span> and <span><span>w0,wa = −0.83, −0.74</span></span>) prior to execution, it provides mathematically transparent, containerized proof that the CSU framework resolves the twin crises of modern cosmology at a "smoking-gun" level of statistical significance.</p>