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| Format: | Recurso digital |
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Zenodo
2025
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| Online Access: | https://doi.org/10.5281/zenodo.15870346 |
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Table of Contents:
- <div>We present the Spiral Fractal Unified Theory (Sfut), a comprehensive framework that unifies micro and macro physics through emergent space-time from entropy flow dynamics. The fundamental postulate is that physical reality consists of discrete entropy units <strong><span><span>☯</span></span></strong> self-organizing into a fractal spiral manifold with scaling parameter k = 3. Space-time and fundamental forces emerge from entropy flow on this recursively structured manifold, where each hierarchical level corresponds to different physical scales, enabling natural unification from quantum to cosmological regimes.</div> <p><strong><span><span> </span></span></strong></p> <div>The theory constructs a complete Lagrangian for spiral field dynamics from first principles, demonstrating how general relativity and quantum field theory emerge as limiting cases of this more fundamental framework. The spiral manifold structure is organized in a 3-branched hierarchy with<strong><span><span>☯</span></span></strong> building blocks, where the scaling constraint k = 3 is uniquely determined by topological and variational principles.</div> <p><strong><span><span> </span></span></strong></p> <div>Key theoretical achievements include: (1) derivation of Einstein's field equations from spiral entropy flow; (2) prediction of neutrino mixing angle sin theta13 = ln(345)/(4*pi^2) ~ 0.148 from E8 symmetry breaking; (3) geometric explanation of the fine structure constant and particle mass ratios; and (4) natural resolution of the dark matter and dark energy problems through spiral manifold curvature effects.</div> <p><strong><span><span> </span></span></strong></p> <div>Cosmological implications include parameter-free predictions for galactic rotation curves, cosmic microwave background anisotropies, and nucleosynthesis abundances. The theory predicts specific values for fundamental constants and particle masses, offering extensive phenomenological consequences that are consistent with precision experimental data. This framework provides a unified foundation for understanding the emergence of space-time, matter, and fundamental forces from geometric entropy dynamics.</div> <p> </p>