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  1. Can Quantum-Mechanical Description of Physical Reality Be Considered Complete?Albert Einstein, Boris Podolsky & Nathan Rosen - 1935 - Physical Review (47):777-780.
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  • Facing the future: agents and choices in our indeterminist world.Nuel D. Belnap - 2001 - New York: Oxford University Press. Edited by Michael Perloff & Ming Xu.
    Here is an important new theory of human action, a theory that assumes actions are founded on choices made by agents who face an open future.
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  • Against pointillisme about mechanics.Jeremy Butterfield - 2006 - British Journal for the Philosophy of Science 57 (4):709-753.
    This paper forms part of a wider campaign: to deny pointillisme, the doctrine that a physical theory's fundamental quantities are defined at points of space or of spacetime, and represent intrinsic properties of such points or point-sized objects located there; so that properties of spatial or spatiotemporal regions and their material contents are determined by the point-by-point facts. More specifically, this paper argues against pointillisme about the concept of velocity in classical mechanics; especially against proposals by Tooley, Robinson and Lewis. (...)
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  • Branching space-time.Nuel Belnap - 1992 - Synthese 92 (3):385 - 434.
    Branching space-time is a simple blend of relativity and indeterminism. Postulates and definitions rigorously describe the causal order relation between possible point events. The key postulate is a version of everything has a causal origin; key defined terms include history and choice point. Some elementary but helpful facts are proved. Application is made to the status of causal contemporaries of indeterministic events, to how splitting of histories happens, to indeterminism without choice, and to Einstein-Podolsky-Rosen distant correlations.
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  • Stochastic outcomes in branching space-time: Analysis of bell's theorem.Tomasz Placek - 2000 - British Journal for the Philosophy of Science 51 (3):445-475.
    The paper extends the framework of outcomes in branching space-time (Kowalski and Placek [1999]) by assigning probabilities to outcomes of events, where these probabilities are interpreted either epistemically or as weighted possibilities. In resulting models I define the notion of common cause of correlated outcomes of a single event, and investigate which setups allow for the introduction of common causes. It turns out that a deterministic common cause can always be introduced, but (surprisingly) only special setups permit the introduction of (...)
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  • On Minkowskian branching structures.Leszek Wroński & Tomasz Placek - 2009 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 40 (3):251-258.
    We introduce the notion of a Minkowskian Branching Structure ("MBS" for short). Then we prove some results concerning the phenomenon of funny business in its finitary and infinitary variants.
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  • Branch Dependence in the “Consistent Histories” Approach to Quantum Mechanics.Thomas Müller - 2007 - Foundations of Physics 37 (2):253-276.
    In the consistent histories formalism one specifies a family of histories as an exhaustive set of pairwise exclusive descriptions of the dynamics of a quantum system. We define branching families of histories, which strike a middle ground between the two available mathematically precise definitions of families of histories, viz., product families and Isham’s history projector operator formalism. The former are too narrow for applications, and the latter’s generality comes at a certain cost, barring an intuitive reading of the “histories”. Branching (...)
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  • Seeing to it that: a canonical form for agentives.Nuel Belnap & Michael Perloff - 1988 - Theoria 54 (3):175-199.
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  • Branching space-time, modal logic, and the counterfactual conditional.Thomas Muller - 2002 - In Tomasz Placek & Jeremy Butterfield (eds.), Non-locality and Modality. Dordrecht and Boston: Kluwer Academic Publishers. pp. 273--291.
    The paper gives a physicist's view on the framework of branching space-time, 385--434). Branching models are constructed from physical state assignments. The models are then employed to give a formal semantics for the modal operators ``possibly'' and ``necessarily'' and for the counterfactual conditional. The resulting formal language can be used to analyze quantum correlation experiments. As an application sketch, Stapp's premises LOC1 and LOC2 from his purported proof of non-locality, 300--304) are analyzed.
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  • Probability Theory and Causation: A Branching Space-Times Analysis.Thomas Müller - 2005 - British Journal for the Philosophy of Science 56 (3):487-520.
    We provide a formally rigorous framework for integrating singular causation, as understood by Nuel Belnap's theory of causae causantes, and objective single case probabilities. The central notion is that of a causal probability space whose sample space consists of causal alternatives. Such a probability space is generally not isomorphic to a product space. We give a causally motivated statement of the Markov condition and an analysis of the concept of screening-off. 1. Causal dependencies and probabilities1.1Background: causation in branching space-times1.2What are (...)
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  • Funny business in branching space-times: infinite modal correlations.Thomas Muller, Nuel Belnap & Kohei Kishida - 2008 - Synthese 164 (1):141-159.
    The theory of branching space-times is designed as a rigorous framework for modelling indeterminism in a relativistically sound way. In that framework there is room for "funny business", i.e., modal correlations such as occur through quantummechanical entanglement. This paper extends previous work by Belnap on notions of "funny business". We provide two generalized definitions of "funny business". Combinatorial funny business can be characterized as "absence of prima facie consistent scenarios", while explanatory funny business characterizes situations in which no localized explanation (...)
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  • Branching space-time analysis of the GHZ theorem.Nuel Belnap & László E. Szabó - 1996 - Foundations of Physics 26 (8):989-1002.
    Greenberger. Horne. Shimony, and Zeilinger gave a new version of the Bell theorem without using inequalities (probabilities). Mermin summarized it concisely; but Bohm and Hiley criticized Mermin's proof from contextualists' point of view. Using the branching space-time language, in this paper a proof will be given that is free of these difficulties. At the same time we will also clarify the limits of the validity of the theorem when it is taken as a proof that quantum mechanics is not compatible (...)
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  • No-common-cause EPR-like funny business in branching space-times.Nuel Belnap - 2003 - Philosophical Studies 114 (3):199 - 221.
    There is no EPR-like funny business if (contrary to apparent fact)our world is as indeterministic as you wish, but is free from theEPR-like quantum mechanical phenomena such as is sometimes described interms of superluminal causation or correlation between distant events.The theory of branching space-times can be used to sharpen thetheoretical dichotomy between EPR-like funny business and noEPR-like funny business. Belnap (2002) offered two analyses of thedichotomy, and proved them equivalent. This essay adds two more, bothconnected with Reichenbachs principle of the (...)
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  • On infinite EPR-like correlations.Tomasz Placek & Leszek Wroński - 2009 - Synthese 167 (1):1-32.
    The paper investigates, in the framework of branching space–times, whether an infinite EPR-like correlation which does not involve finite EPR-like correlations is possible.
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  • (2 other versions)Philosophy and the scientific image of man.Wilfrid Sellars - 1962 - In Robert Garland Colodny (ed.), Frontiers of science and philosophy. [Pittsburgh]: University of Pittsburgh Press. pp. 35-78.
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  • Against a minimalist reading of bell's theorem: Lessons from fine.Thomas Müller & Tomasz Placek - 2001 - Synthese 128 (3):343 - 379.
    Since the validity of Bell's inequalities implies the existence of joint probabilities for non-commuting observables, there is no universal consensus as to what the violation of these inequalities signifies. While the majority view is that the violation teaches us an important lesson about the possibility of explanations, if not about metaphysical issues, there is also a minimalist position claiming that the violation is to be expected from simple facts about probability theory. This minimalist position is backed by theorems due to (...)
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  • Prolegomenon to norms in branching space–times.Nuel Belnap - 2011 - Journal of Applied Logic 9 (2):83-94.
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  • EPR-like “funny business” in the theory of branching space-times.Nuel Belnap - 2002 - In Tomasz Placek & Jeremy Butterfield (eds.), Non-locality and Modality. Dordrecht and Boston: Kluwer Academic Publishers. pp. 293--315.
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