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| Format: | Recurso digital |
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Zenodo
2025
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| Online Access: | https://doi.org/10.5281/zenodo.15663127 |
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Table of Contents:
- <p>In this theoretical proposal, we present an innovative model that redefines gravity as an emergent <br>phenomenon derived from the interaction between space-time and a hypothetical form of tachyon dark <br>matter, distributed in a non-Euclidean quantum substrate, called "cosmic soup". The model, called Dark <br>Matter Gravity Theory 2.0, integrates an extension of Einstein's field equations, modifying them with a <br>tachyon energy-impulse tensor and a negative cosmological constant, consistent with an entropic view <br>of time. <br>In this context, dark matter is not treated as invisible massive particles, but as a manifestation of <br>macroscopic quantum coherence, in which localized tachyon fluctuations produce large-scale metric <br>distortions. The observed gravitational structures (such as galactic rotation curves and gravitational <br>lensing) are thus reinterpreted as topological effects of this deep field. Time itself is modeled as a <br>differential flow, emerging from local entropic variations of the tachyon substrate. <br>Among the observable predictions, the model anticipates gravitational perturbations in the absence of <br>visible matter, potentially detectable by new generation gravitational interferometers (e.g. LISA), and <br>offers a computational simulation basis through an anisotropic quantum lattice with fractal <br>dimensionality. The approach, although speculative, remains anchored to scientific rigor, proposing <br>itself as a bridge between observational cosmology, theoretical physics of emerging fields, and a new <br>vision of time and consciousness in relation to space-time.</p>