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Detalles Bibliográficos
Autor principal: Fathi, Kevin
Formato: Recurso digital
Lenguaje:inglés
Publicado: Zenodo 2025
Materias:
Quantum Measurement
One-Way Functions
Symbolic Entropy
Probabilistic Grammars
Bateson Function
Collapse Rule
Quantum Irreversibility
Decoherence
Kolmogorov Complexity
Computational Physics
Information Loss
Canonical Normal Form
Semantic Ambiguity
Quantum Computation
Symbolic Logic
Acceso en línea:https://doi.org/10.5281/zenodo.16787132
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  • <p>We propose that quantum measurement is structurally equivalent to a Bateson Function operating over a probabilistic grammar. Extending the theory of symbolic entropy and derivational complexity to non-ideal systems, we define stochastic rewrite systems where grammars are non-confluent. We formally integrate the concepts of Ambiguity Entropy ($\tilde{H}_{G}$) and Soft Degeneracy ($\overline{\Delta}_{G}$) to model the probabilistic nature of quantum collapse. In this model, quantum systems evolve deterministically under unitary rules but collapse irreversibly under probabilistic selection (the Born rule) at measurement, which we identify as a probabilistic canonicalization. The resulting framework reinterprets quantum indeterminacy as derivational ambiguity. We rigorously prove that measurement satisfies the criteria of an Ambiguity-Based (compressing) Bateson function, demonstrating information loss via frame (basis) suppression using a formal information-theoretic argument. We establish that the Quantum Semantic Inference Problem (QSIP) is QMA-complete, anchoring irreversibility in computational complexity. Furthermore, we ground the framework in decoherence theory, showing that Soft Degeneracy quantifies the redundancy in Quantum Darwinism, and provide a concrete realization using Tensor Networks.</p>

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