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| Autor principal: | |
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| Format: | Recurso digital |
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Zenodo
2026
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| Accés en línia: | https://doi.org/10.5281/zenodo.20019455 |
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- <p>The third pillar of the N.E.A. (Network Emergent Architecture) framework: the unified settlement of physical constants and the formal definition of universal value. The Sole Boson Theorem establishes the photon as the unique fundamental carrier of interaction. The gauge groups of the four forces—U(1) electromagnetic, spin-2 gravity, SU(2) weak, and SU(3) strong—are identified through Force-Body Duality. The W/Z bosons, gluons, and the graviton are reinterpreted as topological excitation modes or protocol headers of the photonic pulse. The core constants of the Standard Model are settled as high-precision numerical correspondences of three topological genes: spatial dimension d=3, electromagnetic steady-state rent U_EM=0.4π, and weak activation rent U_weak=10√3. The Zhang-Yu Identity, α⁻¹ = 25√3π + 1 ≈ 137.035, matches the measured fine-structure constant to within 0.0008%. All 19 Standard Model parameters now possess closed-form heuristic expressions: 4 are theorem-grade, 15 are strong evidence with precision exceeding 91%. The near-25-bit logical addressing ceiling (N_max = exp(10√3) ≈ 3.32×10⁷ nodes) provides the unified hardware origin for the fermion generation limit, CP violation, and coupling saturation. The Zhangyu (ZY) is formally defined as the universal unit of topological value, empirically anchored to the electron's topological rent (1 ZY ≈ 0.4066 MeV). The baseline enthalpy theorem H = 1 + 1/k is rigorously proved for k-regular graphs. This volume constitutes the watershed of the series: the reader now possesses both the ledger and the currency for all subsequent quantitative audits. This is Volume III of the nine-volume N.E.A. series.</p> <p> </p>