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| Auteur principal: | |
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| Format: | Recurso digital |
| Langue: | japonais |
| Publié: |
Zenodo
2026
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| Sujets: | |
| Accès en ligne: | https://doi.org/10.5281/zenodo.18323132 |
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Table des matières:
- <p>Galaxy rotation curves have long been discussed as evidence for dark matter or modifications of gravitational dynamics.<br>In this work, we reexamine these systematic discrepancies within the framework of <strong>Temporal Membrane Theory (TMT)</strong>, interpreting them not as new dynamical components or geodesic modifications, but as <strong>history-retained correction effects arising from gradients in reconstructed temporal structure</strong>.</p> <p>In this study, the term <em>history retention</em> refers to a situation in which correction effects induced by the temporal membrane are not relaxed or re-adjusted during subsequent evolution, but are continuously preserved and reflected in the reconstructed observational rotation structure.<br>These effects appear only at the level of observational reconstruction and do not correspond to physical modifications of local time flow, particle dynamics, or geodesic motion.</p> <p>Using existing galaxy rotation curve data, we analyze the systematic behavior of temporal membrane parameters <strong>without introducing any additional correction terms or free parameters</strong>.<br>The fitting procedure is performed independently for each galaxy, and no information about galaxy age, morphology, or distance is used during parameter estimation.</p> <p>Our results show that temporal membrane effects do <strong>not</strong> exhibit a simple causal dependence on observational distance.<br>Instead, they are systematically organized according to <strong>how strongly temporal membrane correction effects have been retained over a galaxy’s evolutionary history</strong>, for which galaxy diameter serves as a practical proxy.</p> <p>Furthermore, we demonstrate that apparent distance correlations disappear once galaxy size is controlled, while systematic trends remain with respect to history retention.<br>We also reinterpret the absence of spiral arm structures in massive galaxies not as a failure of arm formation mechanisms, but as a <strong>visibility limit imposed by temporal structure</strong>, where excessive temporal membrane gradients destroy azimuthal phase coherence in observational reconstruction.</p> <p>Importantly, this work does <strong>not</strong> claim that galaxy rotation curves are generated as a structural necessity of temporal membrane effects.<br>Rotation structures are understood as the result of multiple contributing factors—baryonic distribution, formation history, environment, and interactions—within which temporal membrane effects appear as a conditionally retained, observationally reconstructed component.</p> <p>This study provides an alternative organizational framework for galaxy rotation curves, repositioning the problem from dynamical modification to the structure of observational time reconstruction.<br>All summarized datasets used for post-analysis are provided as supplementary materials.</p>