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| Format: | Recurso digital |
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Zenodo
2026
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| Matèries: | |
| Accés en línia: | https://doi.org/10.5281/zenodo.18733143 |
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- <p>This work develops Ω-Dynamics as a non-branching cosmology applicable across physical scales.</p> <p>The universe is described as a single realized structural trajectory within a conserved admissible domain Ω₀. No ontological branching occurs. Physical evolution proceeds through irreversible structural stabilization governed by structural consistency, rather than through multiverse splitting or collapse in the traditional sense.</p> <p>Realized structure and non-actualized admissibility coexist within Ω₀, forming a dual-layer ontology. Selection is interpreted as stability-driven inter-layer stabilization rather than elimination of possibilities.</p> <p>The framework applies not only to large-scale cosmological structure but also to microscopic physical processes, including quantum superposition and the interpretation of collapse. In this view, superposed configurations remain within the conserved admissible domain, while structural stabilization accounts for realized outcomes without invoking branching ontologies.</p> <p>Ω-Dynamics therefore proposes a structural alternative to branching cosmologies and standard collapse-based interpretations of physical evolution.</p> <p> </p> <p><strong>Key developments in this version(V3.1) include:</strong></p> <ul> <li> <p>Explicit formulation of the <strong>conservation of the admissible domain</strong> Ω₀</p> </li> <li> <p>Formal definition of the <strong>event-accumulation index</strong> <em>N</em> as a weighted structural measure</p> </li> <li> <p>Clarification of the <strong>dual-layer ontology</strong> distinguishing stabilized structure and non-actualized admissibility</p> </li> <li> <p>Interpretation of selection as <strong>internal inter-layer transition</strong>, not exogenous intervention</p> </li> <li> <p>Compatibility with the <strong>Born rule</strong> through measure-weighted structural stabilization</p> </li> <li> <p>Reinterpretation of black holes as macroscopic limits of suppressed local structural contribution, preserving global admissibility</p> </li> </ul>