Bridging General Relativity and Quantum Dynamics Through Finite-Resource Logical Models

• URL: http://arxiv.org/abs/2503.23136v1
• Date: Sat, 29 Mar 2025 16:05:50 GMT
• Title: Bridging General Relativity and Quantum Dynamics Through Finite-Resource Logical Models
• Authors: Arturo Tozzi, Michel Planat,
• Abstract summary: A theoretical framework bridging General Relativity (GR) and Quantum Dynamics (QD) is introduced through the application of Kripke semantics and linear logic.<n>Our framework, termed Energy Constrained Linear Causality (ECLC), models quantum transitions and spacetime evolution as logically constrained processes.<n>ECLC provides a unified, resource-aware logic for describing causality, computation and emergence within a finite physical universe.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: A theoretical framework bridging General Relativity (GR) and Quantum Dynamics (QD) is introduced through the application of Kripke semantics and linear logic. While conventional unification efforts often rely on structural or geometrical formulations, we instead treat causality, energy and information as finite, non-replicable resources constraining physical transitions and inference. Our framework, termed Energy Constrained Linear Causality (ECLC), models quantum transitions and spacetime evolution as logically constrained processes in which each implication spends limited resources and cannot be arbitrarily duplicated or reversed. We construct a causal inference model where physical operations like quantum measurement, entanglement propagation and spacetime curvature are expressed as energy-weighted, one-time transformations. Kripke semantics formalizes the logical accessibility of physical states, capturing context-sensitive transitions and the irreversibility of information flow under finite conditions. We derive a structured method for modelling observer-dependent outcomes without invoking background-independence or high-dimensional embeddings. We formulate a series of testable predictions with controlled deviations from standard GR and QD expectations. The consumption-based irreversibility introduces an intrinsic mechanism of symmetry breaking. In GR, it restricts mutual causal accessibility by bounding inference depth with curvature-weighted energy costs. In QD, it disrupts the reciprocity of conditional probabilities and undermines time symmetry in measurement sequences. Therefore, ECLC provides a unified, resource-aware logic for describing causality, computation and emergence within a finite physical universe.

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