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| Format: | Recurso digital |
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Zenodo
2025
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| Online-Zugang: | https://doi.org/10.5281/zenodo.15635816 |
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Inhaltsangabe:
- <p>We present a new foundation for gravity based on structural selection rather<br>than quantization. Within the framework of God’s Principle, the universe does<br>not dynamically evolve geometry from initial conditions, but instead selects en-<br>tire cosmological histories that minimize a real-valued structural cost functional<br>U [Φ], where Φ = {gµν , ψ, ϕ} represents the total configuration of spacetime, matter<br>fields, and a structural selector</p> <p>We show that, in decohered semiclassical branches, minimizing U [Φ] yields the Ein-<br>stein field equations in the low-curvature limit. Gravity thus arises not from quan-<br>tizing the metric, but from selecting geometries that maximize causal smoothness,<br>suppress gravitational entropy, and enable global reconvergence. This reinterpre-<br>tation unifies quantum matter and spacetime geometry through a single structural<br>principle, offering a new explanation for the emergence of classical gravity and<br>pointing toward nonlocal corrections in high-curvature or early-universe regimes.<br>General relativity appears not as a postulate, but as a coherence-optimal branch<br>geometry selected from the total configuration space of the universe. This work is<br>part of a multi-part theoretical sequence exploring the implications of a structural<br>selection principle based on a cost functional U [Φ]. The foundational formulation of<br>this principle appears in the paper ”The Structural Cost Functional U [Φ]: Deriving<br>the Selection Rule Behind Physical Reality”</p>