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Description of many separated physical entities without the paradoxes encountered in quantum mechanics
Foundations of Physics 12 (12):1131-1170 (1982)
Abstract
We show that it is impossible in quantum mechanics to describe two separated physical systems. This is due to the mathematical structure of quantum mechanics. It is possible to give a description of two separated systems in a theory which is a generalization of quantum mechanics and of classical mechanics, in the sense that this theory contains both theories as special cases. We identify the axioms of quantum mechanics that make it impossible to describe separated systems. One of these axioms is equivalent to the superposition principle. We show how these findings throw a different light on the paradox of Einstein, Podolsky, and RosenMy notes
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Citations of this work
Concepts and Their Dynamics: A Quantum‐Theoretic Modeling of Human Thought.Diederik Aerts, Liane Gabora & Sandro Sozzo - 2013 - Topics in Cognitive Science 5 (4):737-772.
Unscrambling the Omelette of Quantum Contextuality : Preexistent Properties or Measurement Outcomes?Christian de Ronde - 2020 - Foundations of Science 25 (1):55-76.
Effect algebras and unsharp quantum logics.D. J. Foulis & M. K. Bennett - 1994 - Foundations of Physics 24 (10):1331-1352.
The Logos Categorical Approach to Quantum Mechanics: I. Kochen-Specker Contextuality and Global Intensive Valuations.Christian de Ronde & Cesar Massri - unknown
Quantum theory and human perception of the macro-world.Diederik Aerts - 2014 - Frontiers in Psychology 5.
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