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Analysis of Wallace’s Proof of the Born Rule in Everettian Quantum Mechanics: Formal Aspects
Foundations of Physics 48 (7):751-782 (2018)
Abstract
To solve the probability problem of the Many Worlds Interpretation of Quantum Mechanics, D. Wallace has presented a formal proof of the Born rule via decision theory, as proposed by D. Deutsch. The idea is to get subjective probabilities from rational decisions related to quantum measurements, showing the non-probabilistic parts of the quantum formalism, plus some rational constraints, ensure the squared modulus of quantum amplitudes play the role of such probabilities. We provide a new presentation of Wallace’s proof, reorganized to simplify some arguments, and analyze it from a formal perspective. Similarities with classical decision theory are made explicit, to clarify its structure and main ideas. A simpler notation is used, and details are filled in, making it easier to follow and verify. Some problems have been identified, and we suggest possible corrections.Links
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A formal proof of the born rule from decision-theoretic assumptions [aka: How to Prove the Born Rule].David Wallace - 2009 - In Simon Saunders, Jon Barrett, Adrian Kent & David Wallace (eds.), Many Worlds?: Everett, Quantum Theory & Reality. Oxford University Press.
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Citations of this work
Probability in Two Deterministic Universes.Mateus Araújo - 2019 - Foundations of Physics 49 (3):202-231.
Analysis of Wallace’s Proof of the Born Rule in Everettian Quantum Mechanics II: Concepts and Axioms.André L. G. Mandolesi - 2019 - Foundations of Physics 49 (1):24-52.
References found in this work
The Emergent Multiverse: Quantum Theory According to the Everett Interpretation.David Wallace - 2012 - Oxford, GB: Oxford University Press.
Interpreting the many-worlds interpretation.David Albert & Barry Loewer - 1988 - Synthese 77 (November):195-213.
Self-locating Uncertainty and the Origin of Probability in Everettian Quantum Mechanics.Charles T. Sebens & Sean M. Carroll - 2016 - British Journal for the Philosophy of Science (1):axw004.
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