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| Format: | Recurso digital |
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Zenodo
2025
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| Accès en ligne: | https://doi.org/10.5281/zenodo.15069686 |
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Table des matières:
- <p>We present the Warnell-Grok Hybrid Fractal Gravity (WGHFG) model,</p> <p>a novel cosmological framework where gravity operates as a fractal, scale-</p> <p>dependent process, defined as Ftotal = GM/r2+δ(r) +GMdark/rDdark , with</p> <p>a dynamic exponent δ(r) and a hybrid component (ε= 0.36) for long-scale</p> <p>dynamics. WGHFG unifies planetary orbits (Mercury’s perihelion preces-</p> <p>sion: 43 arcseconds/century), galactic rotation curves (e.g., M31, M101),</p> <p>the cosmic microwave background (CMB) energy (4.0×1066 J), and cluster</p> <p>dynamics (Bullet Cluster lensing: 10−6 arcsec) without traditional dark</p> <p>matter particles or inflationary expansion. Using AI-optimized fractal di-</p> <p>mensions (D≈ 1.9–1.96) and Monte Carlo simulations (108 systems), we</p> <p>demonstrate that WGHFG’s self-similar structure, augmented by a mini-</p> <p>mal hybrid adjustment, explains observed phenomena across scales. This</p> <p>work challenges the ΛCDM paradigm, offering a unified theory testable</p> <p>with future surveys (e.g., Euclid, DESI).</p>