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Emergent Phenomena in Nature: A Paradox with Theory?
Foundations of Physics 53 (5):1-23 (2023)
Abstract
The existence of various physical phenomena stems from the concept called asymptotic emergence, that is, they seem to be exclusively reserved for certain limiting theories. Important examples are spontaneous symmetry breaking (SSB) and phase transitions: these would only occur in the classical or thermodynamic limit of underlying finite quantum systems, since for finite quantum systems, due to the uniqueness of the relevant states, such phenomena are excluded by Theory. In Nature, however, finite quantum systems describing real materials clearly exhibit such effects. In this paper we discuss these apparently “paradoxical” phenomena and outline various ideas and mechanisms that encompass both theory and reality, from physical and mathematical points of view.Other Versions
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References found in this work
Explaining Universality: Infinite Limit Systems in the Renormalization Group Method.Jingyi Wu - 2021 - Synthese (5-6):14897-14930.
Spontaneous Symmertry Breaking in Finite Systems.James D. Fraser - 2016 - Philosophy of Science 83 (4):585-605.
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.
Less is Different: Emergence and Reduction Reconciled. [REVIEW]Jeremy Butterfield - 2011 - Foundations of Physics 41 (6):1065-1135.
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