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On propensity-frequentist models for stochastic phenomena; with applications to bell's theorem
Abstract
The paper develops models of statistical experiments that combine propensities with frequencies, the underlying theory being the branching space-times (BST) of Belnap (1992). The models are then applied to analyze Bell's theorem. We prove the so-called Bell-CH inequality via the assumptions of a BST version of Outcome Independence and of (non-probabilistic) No Conspiracy. Notably, neither the condition of probabilistic No Conspiracy nor the condition of Parameter Independence is needed in the proof. As the Bell-CH inequality is most likely experimentally falsified, the choice is this: contrary to the appearances, experimenters cannot choose some measurement settings, or some transitions, with spacelike related initial events, are correlated; or both.Author's Profile
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References found in this work
Bell's Theorem without Inequalities.Daniel M. Greenberger, Michael A. Horne, Abner Shimony & Anton Zeilenger - 1990 - American Journal of Physics 58:1131--1143.
Probability Theory and Causation: A Branching Space-Times Analysis.Thomas Müller - 2005 - British Journal for the Philosophy of Science 56 (3):487-520.
A theory of causation: Causae causantes (originating causes) as inus conditions in branching space-times.Nuel Belnap - 2005 - British Journal for the Philosophy of Science 56 (2):221-253.
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