The End of Spacetime: Gravity as a Temporal Rhythm in the Ψλ Framework
The End of Spacetime: Gravity as a Temporal Rhythm in the Ψλ Framework
Ce dépôt présente deux documents Canvas complémentaires (français et anglais) introduisant une interprétation de la gravité fondée sur le rythme temporel dans le cadre Ψλ. L’approche réinterprète l’espace-temps comme un lissage statistique émergent d’une grille temporelle discrète, où la gravité apparaît comme un gradient local du taux de temps propre plutôt que comme une courbure géométrique. La masse y est décrite comme une inertie temporelle, les horizons comme des zones de calcul quasi figées, et l’expansion cosmologique comme une accélération globale du rythme temporel. Le cadre est construit de manière à rester compatible avec les contraintes expérimentales existantes (tests du système solaire, limites PPN, cône causal GW170817), tout en proposant des écarts falsifiables en régime de champ fort. Ce dépôt constitue une synthèse conceptuelle et structurelle, alignée avec les Canvas techniques Ψλ (V3–V13), et sert de point d’entrée pour des développements formels et numériques ultérieurs.
This deposit presents two complementary canvas documents (French and English) introducing a rhythm-based interpretation of gravity within the Ψλ framework. The approach reinterprets spacetime as an emergent statistical smoothing of a discrete temporal grid, where gravity arises as a gradient of local proper-time rate rather than geometric curvature. Mass is described as temporal inertia, horizons as quasi-frozen computation zones, and cosmological expansion as a global acceleration of temporal rhythm. The framework is constructed to remain compatible with existing experimental constraints (Solar System tests, PPN limits, GW170817 causal cone), while offering falsifiable deviations in strong-field regimes. This deposit is intended as a conceptual and structural synthesis, aligned with the Ψλ technical canvases (V3–V13), and serves as an entry point for further formal and numerical developments.
information physics, Ψλ framework, discrete spacetime, spacetime emergence, scalar-tensor theories, temporal dynamics, Gravity, Theoretical physics, Time
information physics, Ψλ framework, discrete spacetime, spacetime emergence, scalar-tensor theories, temporal dynamics, Gravity, Theoretical physics, Time
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