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| Natura: | Recurso digital |
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Zenodo
2026
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| Accesso online: | https://doi.org/10.5281/zenodo.19938986 |
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Sommario:
- <p>The Gravity-Web: A Unified Information-Tension Framework for Dark Matter and Quantum Correlations</p> <p>We present a unified theoretical framework grounded in a single physical premise: spacetime is a dynamic, information-bearing <br>elastic medium — the Gravity-Web — whose tension is sourced by matter and whose finite information capacity is formally expressed by the Operational Coherence Bound (OCB). From this single constraint, two independent sets of falsifiable predictions emerge.</p> <p>The first concerns dark matter. Information exceeding the OCB becomes gravitationally active but operationally silent, forming <br>a pressureless dark fluid without new particles. This reproduces cored galactic rotation curves, the emergent acceleration scale <br>a₀ ≈ cH₀/2π within 13% of the observed MOND value, and a late-time growth of ΩDM/Ωb bounded above by ~12% Gyr⁻¹, with <br>the precise figure dependent on the OCB saturation fraction f(t) whose derivation remains an open problem. These results are proven in companion papers [1–5] and summarized here.</p> <p>The second concerns quantum correlations. The CMB rest frame is identified as the Gravity-Web's equilibrium frame, and the web's tension field is conjectured to determine the hidden-variable distribution for quantum measurements. Under a uniform prior, the model yields a triangular correlation E₀ = −(1−2θ/π), not −cosθ; recovering the quantum result requires a non-uniform prior whose derivation from web mechanics is the central open problem of the framework. Independently of this, the framework predicts a first-order modulation of Bell correlations proportional to the laboratory velocity relative to the CMB, with a known annual variation. A dedicated 30-day rotating-platform Bell test achieves SNR ≈ 1130 for the triangular prior, making a 5σ detection feasible within hours and the annual modulation resolvable at >7σ within 30 days.</p> <p>The two pillars are logically independent: a null Bell result falsifies the Cosmic Mirror while leaving the OCB dark matter <br>predictions untouched, and vice versa. This modularity is the framework's principal methodological strength — it can be tested, <br>and it can be wrong, in parts.</p> <p>Keywords: dark matter, operational coherence bound, holographic bounds, Bell inequalities, hidden variables, CMB rest frame, <br>preferred frame, quantum correlations, galactic rotation curves, information theory</p>