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  1. Stochastic Einstein Locality Revisited.Jeremy Butterfield - 2007 - British Journal for the Philosophy of Science 58 (4):805-867.
    I discuss various formulations of stochastic Einstein locality (SEL), which is a version of the idea of relativistic causality, that is, the idea that influences propagate at most as fast as light. SEL is similar to Reichenbach's Principle of the Common Cause (PCC), and Bell's Local Causality. My main aim is to discuss formulations of SEL for a fixed background spacetime. I previously argued that SEL is violated by the outcome dependence shown by Bell correlations, both in quantum mechanics and (...)
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  • The causal mechanical model of explanation.James Woodward - 1989 - Minnesota Studies in the Philosophy of Science 13:359-83.
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  • Einstein and bell: Strengthening the case for microphysical randomness.Geoffrey Hellman - 1982 - Synthese 53 (3):445 - 460.
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  • Is algebraic lorentz-covariant quantum field theory stochastic Einstein local?F. A. Muller & Jeremy Butterfield - 1994 - Philosophy of Science 61 (3):457-474.
    The general context of this paper is the locality problem in quantum theory. In a recent issue of this journal, Redei (1991) offered a proof of the proposition that algebraic Lorentz-covariant quantum field theory is past stochastic Einstein local. We show that Redei's proof is either spurious or circular, and that it contains two deductive fallacies. Furthermore, we prove that the mentioned theory meets the stronger condition of stochastic Haag locality.
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  • Relativistic Causality in Algebraic Quantum Field Theory.John Earman & Giovanni Valente - 2014 - International Studies in the Philosophy of Science 28 (1):1-48.
    This paper surveys the issue of relativistic causality within the framework of algebraic quantum field theory . In doing so, we distinguish various notions of causality formulated in the literature and study their relationships, and thereby we offer what we hope to be a useful taxonomy. We propose that the most direct expression of relativistic causality in AQFT is captured not by the spectrum condition but rather by the axiom of local primitive causality, in that it entails a form of (...)
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  • Generalization of the Greenberger-Horne-Zeilinger algebraic proof of nonlocality.Robert K. Clifton, Michael L. G. Redhead & Jeremy N. Butterfield - 1991 - Foundations of Physics 21 (2):149-184.
    We further develop a recent new proof (by Greenberger, Horne, and Zeilinger—GHZ) that local deterministic hidden-variable theories are inconsistent with certain strict correlations predicted by quantum mechanics. First, we generalize GHZ's proof so that it applies to factorable stochastic theories, theories in which apparatus hidden variables are causally relevant to measurement results, and theories in which the hidden variables evolve indeterministically prior to the particle-apparatus interactions. Then we adopt a more general measure-theoretic approach which requires that GHZ's argument be modified (...)
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  • Reformulation of the hidden variable problem using entropic measure of uncertainty.Miklós Rédei - 1987 - Synthese 73 (2):371 - 379.
    Using a recently introduced entropy-like measure of uncertainty of quantum mechanical states, the problem of hidden variables is redefined in operator algebraic framework of quantum mechanics in the following way: if A, , E(A), E() are von Neumann algebras and their state spaces respectively, (, E()) is said to be an entropic hidden theory of (A, E(A)) via a positive map L from onto A if for all states E(A) the composite state ° L E() can be obtained as an (...)
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  • Reichenbach's common cause principle and quantum field theory.Miklós Rédei - 1997 - Foundations of Physics 27 (10):1309-1321.
    Reichenbach's principles of a probabilistic common cause of probabilistic correlations is formulated in terms of relativistic quantum field theory, and the problem is raised whether correlations in relativistic quantum field theory between events represented by projections in local observable algebrasA(V1) andA(V2) pertaining to spacelike separated spacetime regions V1 and V2 can be explained by finding a probabilistic common cause of the correlation in Reichenbach's sense. While this problem remains open, it is shown that if all superluminal correlations predicted by the (...)
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  • Stalnaker's conditional and bell's problem.John F. Halpin - 1986 - Synthese 69 (3):325 - 340.
    In his (1981) paper, Stalnaker has revised his old theory of conditionals and has given the revision an interesting defense. Indeed, Stalnaker shows that this new theory meets the standard objections put to the old. However, I argue that the revision runs into difficulties in the context of quantum mechanics: If Stalnaker's theory of the conditional is assumed, then from plausible assumptions certain Bell-like conflicts with experiment can be derived. This result, I go on to argue, is a good reason (...)
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  • Quantum logic, realism, and value definiteness.Allen Stairs - 1983 - Philosophy of Science 50 (4):578-602.
    One of the most interesting programs in the foundations of quantum mechanics is the realist quantum logic approach associated with Putnam, Bub, Demopoulos and Friedman (and which is the focus of my own research.) I believe that realist quantum logic is our best hope for making sense of quantum mechanics, but I have come to suspect that the usual version may not be the correct one. In this paper, I would like to say why and to propose an alternative.
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  • Are prohibitions of superluminal causation by stochastic Einstein locality and by absence of Lewisian probabilistic counterfactual causality equivalent?Miklós Rédei - 1993 - Philosophy of Science 60 (4):608-618.
    Butterfield's (1992a,b,c) claim of the equivalence of absence of Lewisian probabilistic counterfactual causality (LC) to Hellman's stochastic Einstein locality (SEL) is questioned. Butterfield's assumption on which the proof of his claim is based would suffice to prove that SEL implies absence of LC also for appropriately given versions of these notions in algebraic quantum field theory, but the assumption is not an admissible one. The conclusion must be that the relation of SEL and absence of LC is open, and that (...)
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  • Stapp's theorem without counterfactual commitments: Why it fails nonetheless.Michael Dickson - 1993 - Studies in History and Philosophy of Science Part A 24 (5):791-814.
    Stapp's attempt to derive Bell's Inequality from a weak locality condition while retaining indeterminism, requires careful scrutiny to ensure unambiguous definitions and valid reasoning. Such scrutiny reveals that the argument is fallacious. This result is obtained without commitment to any particular formal analysis of truth conditions for counterfactuals nor to conditions for world similarity.
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  • Comparing causality principles.Joe Henson - 2005 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 36 (3):519-543.
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  • Bell's inequalities, relativistic quantum field theory and the problem of hidden variables.Miklós Rédei - 1991 - Philosophy of Science 58 (4):628-638.
    Based partly on proving that algebraic relativistic quantum field theory (ARQFT) is a stochastic Einstein local (SEL) theory in the sense of SEL which was introduced by Hellman (1982b) and which is adapted in this paper to ARQFT, the recently proved maximal and typical violation of Bell's inequalities in ARQFT (Summers and Werner 1987a-c) is interpreted in this paper as showing that Bell's inequalities are, in a sense, irrelevant for the problem of Einstein local stochastic hidden variables, especially if this (...)
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  • What is Einstein's statistical interpretation, or, is it Einstein for whom bell's theorem tolls?Arthur Fine - 1984 - Topoi 3 (1):23-36.
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  • David Lewis meets John bell.Jeremy Butterfield - 1992 - Philosophy of Science 59 (1):26-43.
    The violation of the Bell inequality means that measurement-results in the two wings of the experiment cannot be screened off from one another, in the sense of Reichenbach. But does this mean that there is causation between the results? I argue that it does, according to Lewis's counterfactual analysis of causation and his associated views. The reason lies in his doctrine that chances evolve by conditionalization on intervening history. This doctrine collapses the distinction between the conditional probabilities that are used (...)
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  • EPR, bell, and collapse: A route around "stochastic" hidden variables.Geoffrey Hellman - 1987 - Philosophy of Science 54 (4):558-576.
    Two EPR arguments are reviewed, for their own sake, and for the purpose of clarifying the status of "stochastic" hidden variables. The first is a streamlined version of the EPR argument for the incompleteness of quantum mechanics. The role of an anti-instrumentalist ("realist") interpretation of certain probability statements is emphasized. The second traces out one horn of a central foundational dilemma, the collapse dilemma; complex modal reasoning, similar to the original EPR, is used to derive determinateness (of all spin components (...)
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  • Irreducible probabilities and indeterminism.H. Krips - 1989 - Journal of Philosophical Logic 18 (2):155 - 172.
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  • General causal propensities, classical and quantum probabilities.David Sapire - 1992 - Philosophical Papers 21 (3):243-258.
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  • (1 other version)On the Present State of the Philosophy of Quantum Mathematics.Howard Stein - 1982 - PSA Proceedings of the Biennial Meeting of the Philosophy of Science Association 1982 (2):562-581.
    It was with some trepidation that I agreed to speak today, because of a strong doubt that I could say anything substantial not already to be found in the literature of the subject. I cannot say that this trepidation has been subsequently relieved: all I can claim to offer in this paper is a review of certain basic characteristics or themes in the quantum-mechanical situation (which by now should, I think, be thoroughly understood by everyone engaged with the matter), supplemented (...)
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  • Bell-type inequalities in the nonideal case: Proof of a conjecture of bell.Geoffrey Hellman - 1992 - Foundations of Physics 22 (6):807-817.
    Recently Bell has conjectured that, with “epsilonics,” one should be able to argue, à la EPR, from “almost ideal correlations” (in parallel Bohm-Bell pair experiments) to “almost determinism,” and that this should suffice to derive an approximate Bell-type inequality. Here we prove that this is indeed the case. Such an inequality—in principle testable—is derived employing only weak locality conditions, imperfect correlation, and a propensity interpretation of certain conditional probabilities. Outcome-independence (Jarrett's “completeness” condition), hence “factorability” of joint probabilities, is not assumed, (...)
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