Reformulating Bell's theorem: The search for a truly local quantum theory

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Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 70:39-50 (2020)
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Abstract

The apparent nonlocality of quantum theory has been a persistent concern. Einstein et al. and Bell emphasized the apparent nonlocality arising from entanglement correlations. While some interpretations embrace this nonlocality, modern variations of the Everett-inspired many worlds interpretation try to circumvent it. In this paper, we review Bell's "no-go" theorem and explain how it rests on three axioms, local causality, no superdeterminism, and one world. Although Bell is often taken to have shown that local causality is ruled out by the experimentally confirmed entanglement correlations, we make clear that it is the conjunction of the three axioms that is ruled out by these correlations. We then show that by assuming local causality and no superdeterminism, we can give a direct proof of many worlds. The remainder of the paper searches for a consistent, local, formulation of many worlds. We show that prominent formulations whose ontology is given by the wave function violate local causality, and we critically evaluate claims in the literature to the contrary. We ultimately identify a local many worlds interpretation that replaces the wave function with a separable Lorentz-invariant wave-field. We conclude with discussions of the Born rule, and other interpretations of quantum mechanics.

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10.1016/j.shpsb.2020.02.006

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Author Profiles

Mordecai Waegell
Chapman University
Kelvin J. McQueen
Chapman University

Citations of this work

Metaphysical indeterminacy in Everettian quantum mechanics.David Glick & Baptiste Le Bihan - 2024 - European Journal for Philosophy of Science 14 (3):1-22.
Non-separability, locality and criteria of reality: a reply to Waegell and McQueen.Paolo Faglia - 2024 - Studies in History and Philosophy of Science 106 (C):43-53.

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