Super Relativity
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| Název: | Super Relativity |
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| Autoři: | van Heijst, Peter Erik Ronald |
| Informace o vydavateli: | Zenodo |
| Rok vydání: | 2025 |
| Sbírka: | Zenodo |
| Témata: | Flux field, Emergent spacetime, Variational principle, Flux saturation, Projective geometry, Wavefunction collapse, Dimensional analysis, Quantum gravity, Simulation code, Philosophical context |
| Popis: | Why it matters ► Super Relativity replaces spacetime geometry and quantum indeterminacy with a single scalar flux field Φ(x,t). Space, time, and mass emerge as projective utilisations U/Φ. With one adjustable coupling λ, the framework: - Recovers all tested relativistic effects within current experimental limits.- Explains MOND-like galaxy rotation and Bullet-Cluster lensing without requiring dark matter.- Predicts subtle deviations testable in near‑future experiments (gravitational-wave polarisation, flux cavity redshifts, flux‑tuned Casimir shifts). Comprehensive textual and stylistic revisions - Manuscript rigorously refined through iterative reviews and professional language editing. - All textual recommendations by Paperpal and AI-assisted review tools carefully considered; appropriate suggestions explicitly implemented. Enhanced philosophical framework (Appendix G) - Added discussions on SR as a potential new scientific paradigm, including historical context (Earth’s position in the cosmos, relativity, quantum mechanics). - Expanded philosophical reflection on the concept of imaginary dimensions, emergence of spacetime, and the interplay between information, energy, entropy, and biological complexity. Bibliography extended - Explicit citations added for foundational philosophical and historical context (Jammer 2000; Penrose 2004). Explicit endorsement and publication strategy clarified - Final version structured for formal submission to arXiv (pending endorsement) and Classical and Quantum Gravity (CQG). Consolidation and reproducibility - Refined Post‑Newtonian analysis: Section 5 and Fig. 5 maintained; Cassini‑tight coupling window (λ ≲ 10⁻⁵) explicitly anchors numerical predictions. - Robust experimental framework (Appendix B): Table of 21 experimental predictions, each clearly linked to theoretical analyses (Sections 5, Appendix F). - Numerical simulations (Appendices D & E): Simulation D5 (Python/Jupyter) retained; all Wolfram simulations (D1–D4) carefully documented and directly reproducible. - ... |
| Druh dokumentu: | report |
| Jazyk: | unknown |
| Relation: | https://zenodo.org/records/15958615; oai:zenodo.org:15958615; https://doi.org/10.5281/zenodo.15958615 |
| DOI: | 10.5281/zenodo.15958615 |
| Dostupnost: | https://doi.org/10.5281/zenodo.15958615 https://zenodo.org/records/15958615 |
| Rights: | Creative Commons Attribution 4.0 International ; cc-by-4.0 ; https://creativecommons.org/licenses/by/4.0/legalcode |
| Přístupové číslo: | edsbas.4043EFD8 |
| Databáze: | BASE |
Nájsť tento článok vo Web of Science | Abstrakt: | Why it matters ► Super Relativity replaces spacetime geometry and quantum indeterminacy with a single scalar flux field Φ(x,t). Space, time, and mass emerge as projective utilisations U/Φ. With one adjustable coupling λ, the framework: - Recovers all tested relativistic effects within current experimental limits.- Explains MOND-like galaxy rotation and Bullet-Cluster lensing without requiring dark matter.- Predicts subtle deviations testable in near‑future experiments (gravitational-wave polarisation, flux cavity redshifts, flux‑tuned Casimir shifts). Comprehensive textual and stylistic revisions - Manuscript rigorously refined through iterative reviews and professional language editing. - All textual recommendations by Paperpal and AI-assisted review tools carefully considered; appropriate suggestions explicitly implemented. Enhanced philosophical framework (Appendix G) - Added discussions on SR as a potential new scientific paradigm, including historical context (Earth’s position in the cosmos, relativity, quantum mechanics). - Expanded philosophical reflection on the concept of imaginary dimensions, emergence of spacetime, and the interplay between information, energy, entropy, and biological complexity. Bibliography extended - Explicit citations added for foundational philosophical and historical context (Jammer 2000; Penrose 2004). Explicit endorsement and publication strategy clarified - Final version structured for formal submission to arXiv (pending endorsement) and Classical and Quantum Gravity (CQG). Consolidation and reproducibility - Refined Post‑Newtonian analysis: Section 5 and Fig. 5 maintained; Cassini‑tight coupling window (λ ≲ 10⁻⁵) explicitly anchors numerical predictions. - Robust experimental framework (Appendix B): Table of 21 experimental predictions, each clearly linked to theoretical analyses (Sections 5, Appendix F). - Numerical simulations (Appendices D & E): Simulation D5 (Python/Jupyter) retained; all Wolfram simulations (D1–D4) carefully documented and directly reproducible. - ... |
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| DOI: | 10.5281/zenodo.15958615 |