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| Médium: | Recurso digital |
| Jazyk: | angličtina |
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Zenodo
2026
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| On-line přístup: | https://doi.org/10.5281/zenodo.19084877 |
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| _version_ | 1866902095857188864 |
|---|---|
| author | Pillay, Joquin Leyn |
| author_facet | Pillay, Joquin Leyn |
| contents | <p>This work is part of the core Leynstrinsic Field Theory (LFT) paper series.</p> <p> </p> <p>This paper develops the emergence of spacetime geometry from the underlying connectivity field. It shows how stable geometric structure arises as a phase of the connectivity system, rather than being assumed as a fundamental background.</p> <p> </p> <p>The analysis establishes the conditions under which consistent geometric behavior appears, linking the ultraviolet dimensional crossover to the formation of macroscopic spacetime. Geometry is shown to be a coarse-grained description of relational structure, with distance and curvature emerging from connectivity organization.</p> <p> </p> <p>This paper provides the bridge between ultraviolet structure and observable spacetime geometry.</p> <p> </p> <p>Reading order of the full framework:</p> <p>1. Leyn Manifold</p> <p>2. Manifold Spanner</p> <p>3. Breakdown of Unitarity</p> <p>4. Global Information Structure</p> <p>5. Global Quantum Structure</p> <p>6. Lay-trinsic Field Theory</p> <p>7. LFT Paper 0 - Predictions</p> <p>8. LFT Paper 1</p> <p>9. LFT Paper 2</p> <p>10. LFT Paper 3 (this work) </p> <p>11. LFT Paper 4</p> <p>12. LFT Paper 5</p> <p>13. LFT Paper 6</p> <p>14. LFT Paper 7</p> <p>15. LFT Paper 8</p> <p>16. Catch 22 Volume 1</p> <p>17. Catch 22 Volume 2</p> <p>18. Catch 22 Volume 3</p> <p>19. Catch 22 Volume 4</p> <p>20. Catch 22 Volume 5</p> <p>21. Ongoing Work - Continued resolution of remaining open problems in physics (public, ongoing) </p> <p> </p> <p>Position in framework: 10 (Implications Layer)</p> <p> </p> <p>Note: . This work is already public and continues to expand in full view. Formal academic routes were approached, but access was restricted before full evaluation could occur. The material was then released openly, where it gained traction before unexplained multi-platform lockouts. This situation is now being documented in real time. I have built a public network over 25 years in the entertainment industry, and I am now using it. If you search my name, that trail is visible. The objective is simple: open evaluation. If the framework fails, it will fail in the open. If it holds, that will be equally visible.</p> <p>“Some enter history. Others observe it.” © Joquin Leyn Pillay </p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_19084877 |
| institution | Zenodo |
| language | eng |
| publishDate | 2026 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Leynstrinsic Field Theory - Geometry: Emergent Spacetime Structure Pillay, Joquin Leyn Leynstrinsic Field Theory dimensional crossover Quantum gravity emergent spacetime geometry emergence connectivity field quantum gravity spacetime structure vacuum structure theoretical physics relational physics geometric phase <p>This work is part of the core Leynstrinsic Field Theory (LFT) paper series.</p> <p> </p> <p>This paper develops the emergence of spacetime geometry from the underlying connectivity field. It shows how stable geometric structure arises as a phase of the connectivity system, rather than being assumed as a fundamental background.</p> <p> </p> <p>The analysis establishes the conditions under which consistent geometric behavior appears, linking the ultraviolet dimensional crossover to the formation of macroscopic spacetime. Geometry is shown to be a coarse-grained description of relational structure, with distance and curvature emerging from connectivity organization.</p> <p> </p> <p>This paper provides the bridge between ultraviolet structure and observable spacetime geometry.</p> <p> </p> <p>Reading order of the full framework:</p> <p>1. Leyn Manifold</p> <p>2. Manifold Spanner</p> <p>3. Breakdown of Unitarity</p> <p>4. Global Information Structure</p> <p>5. Global Quantum Structure</p> <p>6. Lay-trinsic Field Theory</p> <p>7. LFT Paper 0 - Predictions</p> <p>8. LFT Paper 1</p> <p>9. LFT Paper 2</p> <p>10. LFT Paper 3 (this work) </p> <p>11. LFT Paper 4</p> <p>12. LFT Paper 5</p> <p>13. LFT Paper 6</p> <p>14. LFT Paper 7</p> <p>15. LFT Paper 8</p> <p>16. Catch 22 Volume 1</p> <p>17. Catch 22 Volume 2</p> <p>18. Catch 22 Volume 3</p> <p>19. Catch 22 Volume 4</p> <p>20. Catch 22 Volume 5</p> <p>21. Ongoing Work - Continued resolution of remaining open problems in physics (public, ongoing) </p> <p> </p> <p>Position in framework: 10 (Implications Layer)</p> <p> </p> <p>Note: . This work is already public and continues to expand in full view. Formal academic routes were approached, but access was restricted before full evaluation could occur. The material was then released openly, where it gained traction before unexplained multi-platform lockouts. This situation is now being documented in real time. I have built a public network over 25 years in the entertainment industry, and I am now using it. If you search my name, that trail is visible. The objective is simple: open evaluation. If the framework fails, it will fail in the open. If it holds, that will be equally visible.</p> <p>“Some enter history. Others observe it.” © Joquin Leyn Pillay </p> |
| title | Leynstrinsic Field Theory - Geometry: Emergent Spacetime Structure |
| topic | Leynstrinsic Field Theory dimensional crossover Quantum gravity emergent spacetime geometry emergence connectivity field quantum gravity spacetime structure vacuum structure theoretical physics relational physics geometric phase |
| url | https://doi.org/10.5281/zenodo.19084877 |