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Epistemology of Wave Function Collapse in Quantum Physics
British Journal for the Philosophy of Science 67 (2):405-434 (2016)
Abstract
Among several possibilities for what reality could be like in view of the empirical facts of quantum mechanics, one is provided by theories of spontaneous wave function collapse, the best known of which is the Ghirardi–Rimini–Weber theory. We show mathematically that in GRW theory there are limitations to knowledge, that is, inhabitants of a GRW universe cannot find out all the facts true of their universe. As a specific example, they cannot accurately measure the number of collapses that a given physical system undergoes during a given time interval; in fact, they cannot reliably measure whether one or zero collapses occur. Put differently, in a GRW universe certain meaningful, factual questions are empirically undecidable. We discuss several types of limitations to knowledge and compare them with those in other versions of quantum mechanics, such as Bohmian mechanics. Most of our results also apply to observer-induced collapses as in orthodox quantum mechanics. 1 Introduction1.1 Known examples of limitations to knowledge1.2 Remarks2 Brief Review of GRW Theories2.1 The GRW process2.2 GRWm2.3 GRWf3 First Examples of Limitations to Knowledge in GRW Theories4 Measurements of Flashes in GRWf, or of Collapses in GRWm4.1 An example in which ψ is known4.2 Other choices of ψ4.3 Experiments beginning before t24.4 If ψ is random4.5 Optimal way of distinguishing two density matrices4.6 If ψ is unknown5 Measurements of m in GRWmAppendix.Other Versions
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Citations of this work
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Individuality and the Account of Nonlocality: The Case for the Particle Ontology in Quantum Physics.Michael Esfeld - 2019 - In Olimpia Lombardi, Quantum Worlds: Perspectives on the Ontology of Quantum Mechanics. New York, NY: Cambridge University Press. pp. 222--244.
Limitations to Genuine Measurements in Ontological Models of Quantum Mechanics.Roderich Tumulka - 2022 - Foundations of Physics 52 (5):1-7.
No-Go Theorems and the Foundations of Quantum Physics.Andrea Oldofredi - 2018 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 49 (3):355-370.
References found in this work
Unified dynamics for microscopic and macroscopic systems.GianCarlo Ghirardi, Alberto Rimini & Tullio Weber - 1986 - Physical Review D 34 (D):470–491.
On the Common Structure of Bohmian Mechanics and the Ghirardi–Rimini–Weber Theory Dedicated to GianCarlo Ghirardi on the occasion of his 70th birthday.Valia Allori, Sheldon Goldstein, Roderich Tumulka & Nino Zanghì - 2008 - British Journal for the Philosophy of Science 59 (3):353 - 389.
Quantum Equilibrium and the Origin of Absolute Uncertainty.Detlef Durr, Sheldon Goldstein & Nino Zanghi - 1992 - Journal of Statistical Physics 67:843-907.
A Relativistic Version of the Ghirardi–Rimini–Weber Model.Roderich Tumulka - 2006 - Journal of Statistical Physics 125:821-840.
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