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| Format: | Recurso digital |
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Zenodo
2026
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| Online Access: | https://doi.org/10.5281/zenodo.19760906 |
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Table of Contents:
- <p>Modern cosmology relies on two dominant unknowns—Dark Matter and Dark Energy—<br>which together account for approximately 95% of the universe’s inferred content, yet<br>remain undetected in laboratory settings . To reconcile these constructs with precise Solar<br>System observations governed by General Relativity, modified gravity theories often invoke<br>screening mechanisms, whereby new physics is suppressed in high-density<br>environments .<br>This paper presents the Space-Phase (SP3) framework, wherein space is a real,<br>conditionable medium possessing memory, stiffness, and energy-storage capability. Within<br>SP3, gravitational behavior arises from pressure gradients in the medium, not mass<br>attraction. We show that (1) galactic rotation, (2) cosmic expansion, and (3) local<br>gravitational consistency emerge naturally from a single medium with scale-dependent<br>conditioning. As a result, dark matter, dark energy, and screening are unnecessary<br>constructs, replaced by a unified physical substrate.</p>