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  1. Idealizations and Analogies: Explaining Critical Phenomena.Quentin Rodriguez - 2021 - Studies in History and Philosophy of Science Part A 89 (C):235-247.
    The “universality” of critical phenomena is much discussed in philosophy of scientific explanation, idealizations and philosophy of physics. Lange and Reutlinger recently opposed Batterman concerning the role of some deliberate distortions in unifying a large class of phenomena, regardless of microscopic constitution. They argue for an essential explanatory role for “commonalities” rather than that of idealizations. Building on Batterman's insight, this article aims to show that assessing the differences between the universality of critical phenomena and two paradigmatic cases of “commonality (...)
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  • Renormalization group methods and the epistemology of effective field theories.Adam Koberinski & Doreen Fraser - 2023 - Studies in History and Philosophy of Science Part A 98 (C):14-28.
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  • Justifying the use of purely formal analogies in physics.Doreen Fraser - manuscript
    Recent case studies have revealed that purely formal analogies have been successfully used as a heuristic in physics. This is at odds with most general philosophical accounts of analogies, which require analogies to be physical in order to be justifiably used. The main goal of this paper is to supply a philosophical account that justifies the use of purely formal analogies in physics. Using Bartha’s (2010) articulation model as a starting point, I offer precise definitions of formal and physical analogies (...)
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  • Growing block time structures for mathematical and conscious ontologies.Sylvain Poirier - manuscript
    A version of the growing block theory of time is developed based on the choice of both consciousness and mathematics as fundamental substances, while dismissing the reality/semantics distinction usually assumed by works on time theory. The well-analyzable growing block structure of mathematical ontology revealed by mathematical logic, is used as a model for a possible deeper working of conscious time. Physical reality is explained as emerging from a combination of both substances, with a proposed specific version of the Consciousness Causes (...)
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  • Norton's material theory of analogy.Paul Bartha - 2020 - Studies in History and Philosophy of Science Part A 82:104-113.
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  • Regularizing (Away) Vacuum Energy.Adam Koberinski - 2021 - Foundations of Physics 51 (1):1-22.
    In this paper I formulate Minimal Requirements for Candidate Predictions in quantum field theories, inspired by viewing the standard model as an effective field theory. I then survey standard effective field theory regularization procedures, to see if the vacuum expectation value of energy density ) is a quantity that meets these requirements. The verdict is negative, leading to the conclusion that \ is not a physically significant quantity in the standard model. Rigorous extensions of flat space quantum field theory eliminate (...)
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  • Emergence and correspondence for string theory black holes.Jeroen van Dongen, Sebastian De Haro, Manus Visser & Jeremy Butterfield - 2020 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 69:112-127.
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  • The non-miraculous success of formal analogies in quantum theories.Doreen Fraser - 2020 - In Juha Saatsi & Steven French (eds.), Scientific Realism and the Quantum. Oxford: Oxford University Press.
    The Higgs model was developed using purely formal analogies to models of superconductivity. This is in contrast to historical case studies such as the development of electromagnetism, which employed physical analogies. As a result, quantum case studies such as the development of the Higgs model carry new lessons for the scientific realism--anti-realism debate. I argue that, by breaking the connection between success and approximate truth, the use of purely formal analogies is a counterexample to two prominent versions of the 'No (...)
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  • Mathematical developments in the rise of Yang–Mills gauge theories.Adam Koberinski - 2019 - Synthese (Suppl 16):1-31.
    In this paper I detail three major mathematical developments that led to the emergence of Yang–Mills theories as the foundation for the standard model of particle physics. In less than 10 years, work on renormalizability, the renormalization group, and lattice quantum field theory highlighted the utility of Yang–Mills type models of quantum field theory by connecting poorly understood candidate dynamical models to emerging experimental results. I use this historical case study to provide lessons for theory construction in physics, and touch (...)
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  • Renormalization group methods: Which kind of explanation?Elena Castellani & Emilia Margoni - 2022 - Studies in History and Philosophy of Science Part A 95 (C):158-166.
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  • Taking approximations seriously: The cases of the Chew and Nambu-Jona-Lasinio models.Pablo Ruiz de Olano, James D. Fraser, Rocco Gaudenzi & Alexander S. Blum - 2022 - Studies in History and Philosophy of Science Part A 93 (C):82-95.
    In this article, we offer a detailed study of two important episodes in the early history of high-energy physics, namely the development of the Chew and the Nambu-Jona-Lasinio models. Our study reveals that both models resulted from the combination of an old Hamiltonian, which had been introduced by earlier researchers, and two new approximation methods developed by Chew and by Nambu and Jona-Lasinio. These new approximation methods, furthermore, were the key component behind the models’ success. We take this historical investigation (...)
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  • The Classical Limit as an Approximation.Benjamin H. Feintzeig - 2020 - Philosophy of Science 87 (4):612-639.
    I argue that it is possible to give an interpretation of the classical ℏ→0 limit of quantum mechanics that results in a partial explanation of the success of classical mechanics. The interpretation...
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  • Phase transitions and the birth of early universe particle physics.Adam Koberinski - 2024 - Studies in History and Philosophy of Science Part A 105 (C):59-73.
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  • Is There a Distinctive Quantum Theology?Wilson C. K. Poon & Tom C. B. McLeish - 2023 - Zygon 58 (1):265-284.
    Quantum mechanics (QM) is a favorite area of physics to feature in “science and religion” discussions. We argue that this is at least partly because the arcane results of QM can be deployed to make big theological claims by the linguistic sleight of hand of “register switching”—sliding imperceptibly from technical into everyday language using the same vocabulary. We clarify the discussion by deploying the formal mapping of QM into classical statistical mechanics (CSM) via the mathematical device of “Wick rotation.” This (...)
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  • Dogmas of Effective Field Theory: Scheme Dependence, Fundamental Parameters, and the Many Faces of the Higgs Naturalness Principle.Joshua Rosaler - 2021 - Foundations of Physics 52 (1):1-32.
    The earliest formulation of the Higgs naturalness argument has been criticized on the grounds that it relies on a particular cutoff-based regularization scheme. One response to this criticism has been to circumvent the worry by reformulating the naturalness argument in terms of a renormalized, regulator-independent parametrization. An alternative response is to deny that regulator dependence poses a problem for the naturalness argument, because nature itself furnishes a particular, physically correct regulator for any effective field theory in the form of that (...)
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  • Self-Normalizing Path Integrals.Ivan M. Burbano & Francisco Calderón - 2024 - Foundations of Physics 54 (5):1-36.
    The normalization in the path integral approach to quantum field theory, in contrast with statistical field theory, can contain physical information. The main claim of this paper is that the inner product on the space of field configurations, one of the fundamental pieces of data required to be added to quantize a classical field theory, determines the normalization of the path integral. In fact, dimensional analysis shows that the introduction of this structure necessarily introduces a scale that is left unfixed (...)
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