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41A Paradox of Information.A Comment on Miller's New Paradox of Information.A Paradox of Zero Information.Miller's So-called Paradox: A Reply to Professor J. L. Mackie.Miller's paradox of Information.The Straight and Narrow Rule of Induction: A Reply to Dr Bub and Mr Radner.New Mysteries for Old: The Transfiguration of Miller's ParadoxJournal of Symbolic Logic 35 (1): 124-127. 1970.
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24IntroductionStudies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 34 (3): 339-341. 2003.Special Issue on Quantum Information and Computation.
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284Characterizing quantum theory in terms of information-theoretic constraintsFoundations of Physics 33 (11): 1561-1591. 2002.We show that three fundamental information-theoretic constraints -- the impossibility of superluminal information transfer between two physical systems by performing measurements on one of them, the impossibility of broadcasting the information contained in an unknown physical state, and the impossibility of unconditionally secure bit commitment -- suffice to entail that the observables and state space of a physical theory are quantum-mechanical. We demonstrate the converse derivation in part, a…Read more
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29Indeterminacy and Enlanglemenl: The Challenge of QuantumIn Peter Clark & Katherine Hawley (eds.), Philosophy of science today, Oxford University Press Uk. pp. 236. 2003.
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Quantum versus classical informationIn Olimpia Lombardi, Sebastian Fortin, Federico Holik & Cristian López (eds.), What is Quantum Information?, Cup. 2017.
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Two dogmas about quantum mechanicsIn Simon Saunders, Jonathan Barrett, Adrian Kent & David Wallace (eds.), Many Worlds?: Everett, Quantum Theory, & Reality, Oxford University Press. 2010.
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40Understanding the Frauchiger–Renner ArgumentFoundations of Physics 51 (2): 1-9. 2021.In 2018, Daniela Frauchiger and Renato Renner published an article in Nature Communications entitled ‘Quantum theory cannot consistently describe the use of itself.’ The argument has been attacked as flawed from a variety of interpretational perspectives. I clarify the significance of the result as a sequence of actions and inferences by agents modeled as quantum systems evolving unitarily at all times. At no point does the argument appeal to a ‘collapse’ of the quantum state following a measure…Read more
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34The Conceptual Foundations of Contemporary Relativity Theory. J. C. GravesPhilosophy of Science 41 (4): 431-433. 1974.
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Indeterminacy and Entanglement: The Challenge of Quantum MechanicsIn Peter Clark & Katherine Hawley (eds.), Philosophy of science today, Oxford University Press Uk. 2003.
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377The Bare Theory Has No ClothesIn Richard Healey & Geoffrey Hellman (eds.), Quantum Measurement: Beyond Paradox, University of Minnesota Press. pp. 32-51. 1998.We criticize the bare theory of quantum mechanics -- a theory on which the Schrödinger equation is universally valid, and standard way of thinking about superpositions is correct.
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71In defense of a “single-world” interpretation of quantum mechanicsStudies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 72 251-255. 2020.
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85The Philosophy of Quantum Mechanics. D. I. Blokhintsev (review)Philosophy of Science 37 (1): 153-156. 1970.
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41Quantum Physics and the Philosophical Tradition. Aage Petersen (review)Philosophy of Science 37 (1): 156-158. 1970.
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Is Cognitive Neuropsychology Possible?PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association 1994 417-427. 1994.The aim of cognitive neuropsychology is to articulate the functional architecture underlying normal cognition, on the basis of cognitive performance data involving brain-damaged subjects. Glymour formulates a discovery problem for cognitive neuropsychology, in the sense of formal learning theory, concerning the existence of a reliable methodology, and argues that the problem is insoluble: granted certain apparently plausible assumptions about the form of neuropsychological theories and the natur…Read more
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9The Philosophy of Quantum Mechanics (review)British Journal for the Philosophy of Science 40 (2): 191-211. 1989.
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189Indeterminacy and entanglement: the challenge of quantum mechanicsBritish Journal for the Philosophy of Science 51 (4): 597-615. 2000.I explore the nature of the problem generated by the transition from classical to quantum mechanics, and I survey some of the different responses to this problem. I show briefly how recent work on quantum information over the past ten years has led to a shift of focus, in which the puzzling features of quantum mechanics are seen as a resource to be developed rather than a problem to be solved
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8Review: The Philosophy of Quantum Mechanics (review)British Journal for the Philosophy of Science 40 (2). 1989.
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76How to interpret quantum mechanicsErkenntnis 41 (2). 1994.I formulate the interpretation problem of quantum mechanics as the problem of identifying all possible maximal sublattices of quantum propositions that can be taken as simultaneously determinate, subject to certain constraints that allow the representation of quantum probabilities as measures over truth possibilities in the standard sense, and the representation of measurements in terms of the linear dynamics of the theory. The solution to this problem yields a modal interpretation that I show t…Read more
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98Quantum Mechanics as a Principle TheoryStudies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 31 (1): 75-94. 2000.I show how quantum mechanics, like the theory of relativity, can be understood as a 'principle theory' in Einstein's sense, and I use this notion to explore the approach to the problem of interpretation developed in my book Interpreting the Quantum World.
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15Book Review:Niels Bohr's Philosophy of Physics Dugald Murdoch (review)Philosophy of Science 57 (2): 344-. 1990.
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