Gardado en:
| Autor Principal: | |
|---|---|
| Formato: | Recurso digital |
| Idioma: | |
| Publicado: |
Zenodo
2026
|
| Subjects: | |
| Acceso en liña: | https://doi.org/10.5281/zenodo.19387380 |
| Tags: |
Engadir etiqueta
Sen Etiquetas, Sexa o primeiro en etiquetar este rexistro!
|
Table of Contents:
- <p>We construct a reduced forward map connecting a physically structured seed to the observable universe<br>within a coherent metric-affine framework. The construction is based on a layered dynamical architec<br>ture in which a Kerr-like coherent seed generates a bounce regime, stabilizing a non-trivial background<br>that supports localized coherent configurations.The relaxed background is described by a reduced set of variables, the quartetto (Q,S∗,A∗,X∗), obtained as a fixed point of the reduced affine dynamics. From this fixed point, two hierarchical channels (∆H,∆L) emerge as the stiff and soft eigenmodes of the system. These channels, together with a residual core imprint encoded in an effective black-hole charge QBH, determine the observable spectrum. The charged lepton masses are generated by a<br>coherent family law controlled by the stiff channel, with infrared sensitivity governed by the core imprint. The quark sector exhibits a richer structure, with an amplified stiff branch for (s,c,b,t) and a soft, mixing-dominated regime for (u,d). Flavor mixing arises naturally from overlap between coherent configurations and from residual collision memory, reproducing the hierarchical structure and CP phase of the CKM matrix.<br>The electroweak and Higgs sectors are interpreted as collective modes of the same background, while the vacuum energy is associated with the global deformation parameter X∗. A single reduced configuration reproduces, at the benchmark level, the observed fermion masses, mixing hierarchy, electroweak scale,<br>Higgs mass, and suppressed vacuum energy. The construction is internally consistent and highly constrained, but remains a reduced description. In particular, the mapping from the physical seed to the quartetto is not yet derived from a full microscopic solution, and the bosonic sector is treated at the level of effective collective modes. The present work should therefore be viewed as a first concrete realization of a forward dynamical architecture, rather than a complete fundamental theory.</p>