Guardat en:
| Autors principals: | , |
|---|---|
| Format: | Recurso digital |
| Idioma: | anglès |
| Publicat: |
Zenodo
2026
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| Matèries: | |
| Accés en línia: | https://doi.org/10.5281/zenodo.19042963 |
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- <p dir="ltr">This work presents Version 2 of Paper 017, a calibrated extension of the H4/GZ60 discrete algebraic framework. The framework investigates whether a 60-state cyclic algebraic system (12 × 5) can organize structures appearing in particle physics, atomic spectra, and discrete symmetry systems.</p> <p dir="ltr">The manuscript preserves and strengthens previously established theorem-level results of the program, including:</p> <ul> <li>A discrete SO(4) Casimir derivation reproducing the hydrogen spectrum.</li> <li>Exact generator-level algebra audits for SU(3) and SU(2) × U(1).</li> <li>A revised state dictionary providing an exact cover of the 48 fermionic degrees of freedom of the Standard Model. This exact cover uniquely determines N_gen = 3 and N_H = 1, thereby reproducing the standard one-loop beta coefficients (b1, b2, b3) of the Standard Model gauge running.</li> </ul> <p dir="ltr">Paper 017 (Version 2) introduces crucial refinements in the flavor sector and CP violation:</p> <ul> <li>The gluon sector is explicitly organized as color-pair transitions consistent with the adjoint representation.</li> <li>The flavor sector is reformulated through a discrete overlap reconstruction rather than direct Yukawa diagonalization, yielding a stable reconstruction of all nine CKM magnitudes within 6% and the correct order of the Jarlskog invariant.</li> <li>A convention-calibrated CKM geometry is established, where the robust radius |ρ + iη| exactly matches the golden-ratio relation 1/φ² at the 10⁻³ level.</li> <li>[NEW in v2] The CP violating phase is shown to admit a Next-to-Leading Order (NLO) algebraic expression: δ_CP ≈ arccos(1/φ² - λ²/2). This correction resolves the previous geometric residual, yielding a phase of 69.17°, which matches the current experimental central value within 0.03°.</li> </ul> <p dir="ltr">The purpose of this work is not to claim a completed unified dynamical theory, but to define a rigorous "claim boundary" for the H4/GZ60 program: explicitly separating which components are mathematically exact, which are supported by finite algebraic audits (Level A/B), and which remain open dynamical problems (such as the first-principles RGE origin of φ, and the mechanisms generating Majorana and Higgs masses).</p>