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  1. On the Notions of Causality and Complementarity.Niels Bohr - 1948 - Dialectica 2 (3-4):312–319.
    SummaryA short exposition is given of the foundation of the causal description in classical physics and the failure of the principle of causality in coping with atomic phenomena. It is emphasized that the individuality of the quantum processes excludes a separation between a behaviour of the atomic objects and their interaction with the measuring instruments denning the conditions under which the phenomena appear. This circumstance forces us to recognize a novel relationship, conveniently termed complementarity, between empirical evidence obtained under different (...)
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  • The Quantum Postulate and the Recent Development of Atomic Theory.Niels Bohr - 1928 - Nature 121:580--590.
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  • What makes a classical concept classical? Toward a reconstruction of Niels Bohr's philosophy of physics.Don Howard - 1994 - In Niels Bohr and Contemporary Philosophy. Kluwer Academic Publishers. pp. 201--230.
    — Niels Bohr, 19231 “There must be quite definite and clear grounds, why you repeatedly declare that one must interpret observations classically, which lie absolute ly in thei r essenc e. . . . It must belong to your deepest conviction—and I cannot understand on what you base it.”.
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  • (1 other version)Are there quantum jumps? Part I.E. Schrödinger - 1952 - British Journal for the Philosophy of Science 3 (10):109-123.
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  • From Correspondence to Complementarity: The Emergence of Bohr's Copenhagen Interpretation of Quantum Mechanics.Scott Daniel Tanona - 2002 - Dissertation, Indiana University
    I develop a new analysis of Niels Bohr's Copenhagen interpretation of quantum mechanics by examining the development of his views from his earlier use of the correspondence principle in the so-called 'old quantum theory' to his articulation of the idea of complementarity in the context of the novel mathematical formalism of quantum mechanics. I argue that Bohr was motivated not by controversial and perhaps dispensable epistemological ideas---positivism or neo-Kantianism, for example---but by his own unique perspective on the difficulties of creating (...)
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  • The Uncertainty Principle.Jan Hilgevoord & Jos Uffink - 2014 - In Edward N. Zalta (ed.), The Stanford Encyclopedia of Philosophy. Stanford, CA: The Metaphysics Research Lab.
    Quantum mechanics is generally regarded as the physical theory that is our best candidate for a fundamental and universal description of the physical world. The conceptual framework employed by this theory differs drastically from that of classical physics. Indeed, the transition from classical to quantum physics marks a genuine revolution in our understanding of the physical world.
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  • Niels Bohr's discussions with Albert Einstein, Werner Heisenberg, and Erwin Schrödinger: The origins of the principles of uncertainty and complementarity.Jagdish Mehra - 1987 - Foundations of Physics 17 (5):461-506.
    In this paper, the main outlines of the discussions between Niels Bohr with Albert Einstein, Werner Heisenberg, and Erwin Schrödinger during 1920–1927 are treated. From the formulation of quantum mechanics in 1925–1926 and wave mechanics in 1926, there emerged Born's statistical interpretation of the wave function in summer 1926, and on the basis of the quantum mechanical transformation theory—formulated in fall 1926 by Dirac, London, and Jordan—Heisenberg formulated the uncertainty principle in early 1927. At the Volta Conference in Como in (...)
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  • Uncertainty principle and uncertainty relations.J. B. M. Uffink & Jan Hilgevoord - 1985 - Foundations of Physics 15 (9):925–944.
    It is generally believed that the uncertainty relation Δq Δp≥1/2ħ, where Δq and Δp are standard deviations, is the precise mathematical expression of the uncertainty principle for position and momentum in quantum mechanics. We show that actually it is not possible to derive from this relation two central claims of the uncertainty principle, namely, the impossibility of an arbitrarily sharp specification of both position and momentum (as in the single-slit diffraction experiment), and the impossibility of the determination of the path (...)
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  • Complementarity and Ontology: Niels Bohr and the problem of scientific realism in quantum physics.Don Howard - 1979 - Dissertation, Boston University
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  • Matrix Theory before Schrodinger: Philosophy, Problems, Consequences.Mara Beller - 1983 - Isis 74 (4):469-491.
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