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Philosophical Implications of Kadanoff's work on the Renormalization Group

Robert Batterman

Journal of Statistical Physics 167 (3-4):559–574 (2017)

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Explaining Universality: Infinite Limit Systems in the Renormalization Group Method.Jingyi Wu - 2021 - Synthese (5-6):14897-14930.details I analyze the role of infinite idealizations used in the renormalization group (RG hereafter) method in explaining universality across microscopically different physical systems in critical phenomena. I argue that despite the reference to infinite limit systems such as systems with infinite correlation lengths during the RG process, the key to explaining universality in critical phenomena need not involve infinite limit systems. I develop my argument by introducing what I regard as the explanatorily relevant property in RG explanations: linearization* property; I (...) Thermodynamics and Statistical Mechanics in Philosophy of Physical Science Direct download (3 more) Export citation Bookmark 4 citations
Infinite idealizations in physics.Elay Shech - 2018 - Philosophy Compass 13 (9):e12514.details In this essay, I provide an overview of the debate on infinite and essential idealizations in physics. I will first present two ostensible examples: phase transitions and the Aharonov– Bohm effect. Then, I will describe the literature on the topic as a debate between two positions: Essentialists claim that idealizations are essential or indispensable for scientific accounts of certain physical phenomena, while dispensabilists maintain that idealizations are dispensable from mature scientific theory. I will also identify some attempts at finding a (...) Approximation in General Philosophy of Science Idealization in General Philosophy of Science Philosophy of Physics, Miscellaneous in Philosophy of Physical Science Direct download (3 more) Export citation Bookmark 15 citations
Phase Transitions: A Challenge for Intertheoretic Reduction?Patricia Palacios - 2019 - Philosophy of Science 86 (4):612-640.details I analyze the extent to which classical phase transitions, both first order and continuous, pose a challenge for intertheoretic reduction. My contention is that phase transitions are compatible with a notion of reduction that combines Nagelian reduction and what Thomas Nickles called Reduction2. I also argue that, even if the same approach to reduction applies to both types of phase transitions, there is a crucial difference in their physical treatment: in addition to the thermodynamic limit, in continuous phase transitions there (...) Science, Logic, and Mathematics Direct download (3 more) Export citation Bookmark 10 citations
Becoming Large, Becoming Infinite: The Anatomy of Thermal Physics and Phase Transitions in Finite Systems.David A. Lavis, Reimer Kühn & Roman Frigg - 2021 - Foundations of Physics 51 (5):1-69.details This paper presents an in-depth analysis of the anatomy of both thermodynamics and statistical mechanics, together with the relationships between their constituent parts. Based on this analysis, using the renormalization group and finite-size scaling, we give a definition of a large but finite system and argue that phase transitions are represented correctly, as incipient singularities in such systems. We describe the role of the thermodynamic limit. And we explore the implications of this picture of critical phenomena for the questions of (...) reduction and emergence. (shrink) Philosophy of Physical Science Direct download (3 more) Export citation Bookmark 3 citations
Universality Reduced.Alexander Franklin - 2019 - Philosophy of Science 86 (5):1295-1306.details The universality of critical phenomena is best explained by appeal to the Renormalisation Group (RG). Batterman and Morrison, among others, have claimed that this explanation is irreducible. I argue that the RG account is reducible, but that the higher-level explanation ought not to be eliminated. I demonstrate that the key assumption on which the explanation relies – the scale invariance of critical systems – can be explained in lower-level terms; however, we should not replace the RG explanation with a bottom-up (...) Concepts of Emergence in Metaphysics Emergence in Physical Science in Philosophy of Physical Science Multiple Realizability in General Philosophy of Science Solid State Physics in Philosophy of Physical Science Direct download (6 more) Export citation Bookmark 6 citations
On the Renormalization Group Explanation of Universality.Alexander Franklin - 2018 - Philosophy of Science 85 (2):225-248.details It is commonly claimed that the universality of critical phenomena is explained through particular applications of the renormalization group. This article has three aims: to clarify the structure of the explanation of universality, to discuss the physics of such RG explanations, and to examine the extent to which universality is thus explained. The derivation of critical exponents proceeds via a real-space or a field-theoretic approach to the RG. Building on work by Mainwood, this article argues that these approaches ought to (...) Condensed Matter Physics in Philosophy of Physical Science Emergence in Physical Science in Philosophy of Physical Science Direct download (12 more) Export citation Bookmark 14 citations
Can Multiple Realisation be Explained?Alexander Franklin - 2021 - Philosophy 96 (1):27-48.details Multiple realisation prompts the question: how is it that multiple systems all exhibit the same phenomena despite their different underlying properties? In this paper I develop a framework for addressing that question and argue that multiple realisation can be reductively explained. I illustrate this position by applying the framework to a simple example – the multiple realisation of electrical conductivity. I defend my account by addressing potential objections:contra Polger and Shapiro, Batterman, and Sober, I claim that multiple realisation is commonplace, (...) Multiple Realizability in General Philosophy of Science Reductive Explanation in General Philosophy of Science Direct download (3 more) Export citation Bookmark
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.details Science, Logic, and Mathematics Direct download (2 more) Export citation Bookmark 1 citation
Discontinuities and singularities, data and phenomena: for Referentialism.Sorin Bangu - 2019 - Synthese 196 (5):1919-1937.details The paper rebuts a currently popular criticism against a certain take on the referential role of discontinuities and singularities in the physics of first-order phase transitions. It also elaborates on a proposal I made previously on how to understand this role within the framework provided by the distinction between data and phenomena. Condensed Matter Physics in Philosophy of Physical Science Philosophy of Physics, Misc in Philosophy of Physical Science Thermodynamics and Statistical Mechanics in Philosophy of Physical Science Direct download (3 more) Export citation Bookmark 1 citation
Finite-size scaling theory: Quantitative and qualitative approaches to critical phenomena.Vincent Ardourel & Sorin Bangu - 2023 - Studies in History and Philosophy of Science Part A 100 (C):99-106.details Science, Logic, and Mathematics Direct download (2 more) Export citation Bookmark

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