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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.19979694 |
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- <p>Across five independent contexts in the Photonic Universe Hypothesis archive, the same rational number Q = 2/3 appears as a structural constant. </p> <p>T152 derives Q = 2/3 from the Z_3-symmetric Koide parameterization of fermion masses, where Q is the universal Koide ratio (sum m_i)/(sum sqrt(m_i))^2. T155 v2 derives sector phase offsets delta_sector with the leading scale Q(1-Q) = 2/9 modulated by colour Clebsch-Gordan factors.</p> <p>T222 establishes the three Standard Model fermion generations as the Z_3 orbit on the three mark-1 nodes of affine E_6, where the Z_3 is the abelianization of the binary tetrahedral group 2T (Klein 1884; McKay 1980).</p> <p>T225 demonstrates that delta_lep = +Q(1-Q) = +2/9 substituted into the Koide mass formula EXACTLY reproduces the empirical lepton mass ratios m_mu/m_e = 206.77 and m_tau/m_mu = 16.82 to all printed digits of PDG 2024 values.</p> <p>T226 identifies the leading-order PMNS matrix structure with Tribimaximal Mixing (Harrison, Perkins, Scott 2002), whose matrix elements are |V_e1| = sqrt(Q) and |V_e2| = sqrt(1-Q) — the same Koide Q driving the matrix elements of the canonical lepton-mixing ansatz.</p> <p>This paper consolidates the convergence.</p> <p>The same rational Q = 2/3 appears in five different physical contexts:</p> <p>(1) the universal Koide ratio governing fermion mass triples;</p> <p>(2) the sector phase offset Q(1-Q) = 2/9 in the Koide parameterization;</p> <p>(3) the count of three generations as Z_3 orbit;</p> <p>(4) the exact lepton within-sector hierarchy via Koide formula;</p> <p>(5) the PMNS first-row matrix elements via Tribimaximal Mixing.</p> <p>Each manifestation is established by a separate theorem with its own derivation; the convergence is the structural observation of this paper.</p> <p>The interpretation: Q = 2/3 is the central rational of a Z_3 generation symmetry that organizes the entire fermion sector of the Standard Model.</p> <p>Mass ratios, mixing patterns, and generation count are not independent free parameters; they are different manifestations of the same underlying Z_3 structure.</p> <p>The Z_3 itself has rigorous group-theoretic origin via the McKay correspondence (T222) — the abelianization of the binary tetrahedral group 2T which is uniquely Z_3 for E_6’s discrete partner.</p> <p>This grounds the Q-convergence in established mathematics rather than phenomenological fitting.</p> <p>Honest scope: T227 is a SYNTHESIS paper, not a derivation paper.</p> <p>The five contexts where Q = 2/3 appears are derived in their respective theorems (T152, T155 v2, T222, T225, T226). T227’s contribution is identifying the convergence as a structural observation about the framework’s internal coherence.</p> <p>The paper does NOT claim Q = 2/3 explains all Standard Model parameters (it specifically organizes the Z_3 generation sector, not the gauge couplings, Higgs sector, or absolute scales).</p> <p>The paper does NOT claim this convergence proves the framework correct (external validation requires engagement beyond the archive).</p> <p>The paper DOES claim the convergence is the strongest internal-consistency argument the PUH archive has produced, and that convergences of this kind are the signature of underlying symmetry rather than fitting freedom.</p> <p>Three formal synthesis observations and a clear scope statement follow.</p>