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  1. Tabletop Experiments for Quantum Gravity Are Also Tests of the Interpretation of Quantum Mechanics.Emily Adlam - 2022 - Foundations of Physics 52 (5):1-43.
    Recently there has been a great deal of interest in tabletop experiments intended to exhibit the quantum nature of gravity by demonstrating that it can induce entanglement. In order to evaluate these experiments, we must determine if there is any interesting class of possibilities that will be convincingly ruled out if it turns out that gravity can indeed induce entanglement. In particular, since one argument for the significance of these experiments rests on the claim that they demonstrate the existence of (...)
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  • (1 other version)Why Quantize Gravity (or Any Other Field for That Matter)?Nick Huggett & Craig Callender - 2001 - Philosophy of Science 68 (S3):S382-S394.
    The quantum gravity program seeks a theory that handles quantum matter fields and gravity consistently. But is such a theory really required and must it involve quantizing the gravitational field? We give reasons for a positive answer to the first question, but dispute a widespread contention that it is inconsistent for the gravitational field to be classical while matter is quantum. In particular, we show how a popular argument falls short of a no-go theorem, and discuss possible counterexamples. Important issues (...)
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  • Models and methodologies in current theoretical high-energy physics.James T. Cushing - 1982 - Synthese 50 (1):5 - 101.
    A case study of the development of quantum field theory and of S-matrix theory, from their inceptions to the present, is presented. The descriptions of science given by Kuhn and by Lakatos are compared and contrasted as they apply to this case study. The episodes of the developments of these theories are then considered as candidates for competing research programs in Lakatos' methodology of scientific research programs. Lakatos' scheme provides a reasonable overall description and a plausible assessment of the relative (...)
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  • Horizons of Description: Black Holes and Complementarity.Peter Joshua Martin Bokulich - 2003 - Dissertation, University of Notre Dame
    Niels Bohr famously argued that a consistent understanding of quantum mechanics requires a new epistemic framework, which he named complementarity . This position asserts that even in the context of quantum theory, classical concepts must be used to understand and communicate measurement results. The apparent conflict between certain classical descriptions is avoided by recognizing that their application now crucially depends on the measurement context. ;Recently it has been argued that a new form of complementarity can provide a solution to the (...)
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  • (1 other version)Review. [REVIEW]Anna Maidens - 1995 - British Journal for the Philosophy of Science 46 (2):253-260.
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  • (1 other version)Philosophen in der Mikrowelt — ratlos?Manfred Stöckler - 1986 - Zeitschrift Für Allgemeine Wissenschaftstheorie 17 (1):68-95.
    In this report on the present state of the discussion about the interpretation of quantum mechanics an attempt is made to provide an idea of the philosophical relevance of the foundations of physics. A simplified model of the measuring process is given which shows the difficulties in the interpretation of quantum mechanics. It is argued against Bohr's solution (also in a version of H. Putnam). Two examples show possible philosophical consequences of quantum mechanics: The variety of quantum logics challenges the (...)
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  • (1 other version)On the tension between ontology and epistemology in quantum probabilities.Amit Hagar - 2017 - In Olimpia Lombardi, Sebastian Fortin, Federico Holik & Cristian López (eds.), What is Quantum Information? New York, NY: CUP. pp. 147-178.
    For many among the scientifically informed public, and even among physicists, Heisenberg's uncertainty principle epitomizes quantum mechanics. Nevertheless, more than 86 years after its inception, there is no consensus over the interpretation, scope, and validity of this principle. The aim of this chapter is to offer one such interpretation, the traces of which may be found already in Heisenberg's letters to Pauli from 1926, and in Dirac's anticipation of Heisenberg's uncertainty relations from 1927, that stems form the hypothesis of finite (...)
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  • Why has de Broglie's theory been rejected?Thomas Bonk - 1994 - Studies in History and Philosophy of Science Part A 25 (3):375-396.
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  • (1 other version)Philosophen in der mikrowelt — ratlos?Manfred Stöckler - 1986 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 17 (1):68-95.
    Summary In this report on the present state of the discussion about the interpretation of quantum mechanics an attempt is made to provide an idea of the philosophical relevance of the foundations of physics. A simplified model of the measuring process is given which shows the difficulties in the interpretation of quantum mechanics. It is argued against Bohr's solution (also in a version of H. Putnam). Two examples show possible philosophical consequences of quantum mechanics: The variety of quantum logics challenges (...)
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  • Holism in microphysics.Silvio Seno Chibeni - 2004 - Epistemologia 27 (2):227-244.
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