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| Natura: | Recurso digital |
| Lingua: | inglese |
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Zenodo
2026
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| Accesso online: | https://doi.org/10.5281/zenodo.18329232 |
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| _version_ | 1866901222111313920 |
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| author | Mariscal Estrada, Javier |
| author_facet | Mariscal Estrada, Javier |
| contents | <p>We present a causal and dynamical mechanism for the formation of observed superclusters within</p> <p>the Global Inhomogeneity Domains (GID) framework. Three horizon-scale coherent domains are</p> <p>identified: Φ<span>₁</span> (upper-left, ~2.5 Gpc) associated with Laniakea, Φ<span>₂</span> (upper-right, ~2.5 Gpc)</p> <p>associated with Shapley, and a central collapsed domain Φ<span>₀</span> (~1.8 Gpc) associated with the Great</p> <p>Attractor.</p> <p>A key clarification is that the apparent “repulsive” behavior originating from Φ<span>₀</span> does not imply</p> <p>new physics, but corresponds to an effective negative gravitational potential gradient,</p> <p><span>∇</span>Φ<span>₀</span>(collapsed) < 0, produced by violent collapse and mass–energy redistribution (collapse fraction</p> <p>f ≈ 60–75%). Coherent peculiar velocities with amplitudes up to ~600 km s<span>⁻</span>¹ arise naturally from</p> <p>the time-integrated effect of these gradients within standard General Relativity. Matter accumulates</p> <p>in nodal regions where tidal gradients from Φ<span>₁</span> and Φ<span>₂</span> decelerate the flows, forming the observed</p> <p>superclusters.</p> <p>This framework unifies CMB anomalies, bulk flows, directional H<span>₀</span> tension, and large-scale</p> <p>structure formation without invoking inflationary fine-tuning or modifications of gravity.</p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_18329232 |
| institution | Zenodo |
| language | eng |
| publishDate | 2026 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Dynamic Formation of Superclusters within the Global Inhomogeneity Domains (GID) Framework Mariscal Estrada, Javier <p>We present a causal and dynamical mechanism for the formation of observed superclusters within</p> <p>the Global Inhomogeneity Domains (GID) framework. Three horizon-scale coherent domains are</p> <p>identified: Φ<span>₁</span> (upper-left, ~2.5 Gpc) associated with Laniakea, Φ<span>₂</span> (upper-right, ~2.5 Gpc)</p> <p>associated with Shapley, and a central collapsed domain Φ<span>₀</span> (~1.8 Gpc) associated with the Great</p> <p>Attractor.</p> <p>A key clarification is that the apparent “repulsive” behavior originating from Φ<span>₀</span> does not imply</p> <p>new physics, but corresponds to an effective negative gravitational potential gradient,</p> <p><span>∇</span>Φ<span>₀</span>(collapsed) < 0, produced by violent collapse and mass–energy redistribution (collapse fraction</p> <p>f ≈ 60–75%). Coherent peculiar velocities with amplitudes up to ~600 km s<span>⁻</span>¹ arise naturally from</p> <p>the time-integrated effect of these gradients within standard General Relativity. Matter accumulates</p> <p>in nodal regions where tidal gradients from Φ<span>₁</span> and Φ<span>₂</span> decelerate the flows, forming the observed</p> <p>superclusters.</p> <p>This framework unifies CMB anomalies, bulk flows, directional H<span>₀</span> tension, and large-scale</p> <p>structure formation without invoking inflationary fine-tuning or modifications of gravity.</p> |
| title | Dynamic Formation of Superclusters within the Global Inhomogeneity Domains (GID) Framework |
| url | https://doi.org/10.5281/zenodo.18329232 |