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Contextual Unification of Classical and Quantum Physics
Foundations of Physics 53 (2):1-24 (2023)
Abstract
Following an article by John von Neumann on infinite tensor products, we develop the idea that the usual formalism of quantum mechanics, associated with unitary equivalence of representations, stops working when countable infinities of particles (or degrees of freedom) are encountered. This is because the dimension of the corresponding Hilbert space becomes uncountably infinite, leading to the loss of unitary equivalence, and to sectorisation. By interpreting physically this mathematical fact, we show that it provides a natural way to describe the “Heisenberg cut”, as well as a unified mathematical model including both quantum and classical physics, appearing as required incommensurable facets in the description of nature.My notes
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References found in this work
On the interpretation of measurement in quantum theory.H. D. Zeh - 1970 - Foundations of Physics 1 (1):69-76.
Contexts, Systems and Modalities: A New Ontology for Quantum Mechanics.Alexia Auffèves & Philippe Grangier - 2016 - Foundations of Physics 46 (2):121-137.
Deriving Born’s Rule from an Inference to the Best Explanation.Alexia Auffèves & Philippe Grangier - 2020 - Foundations of Physics 50 (12):1781-1793.
Completing the Quantum Formalism in a Contextually Objective Framework.Philippe Grangier - 2021 - Foundations of Physics 51 (4):1-14.
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