Decoherence and the Copenhagen cut

Synthese 190 (16):3625-3649 (2013)
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Abstract

While it is widely agreed that decoherence will not solve the measurement problem, decoherence has been used to explain the “emergence of classicality” and to eliminate the need for a Copenhagen edict that some systems simply have to be treated as classical via a quantum-classical “cut”. I argue that decoherence still relies on such a cut. Decoherence accounts derive classicality only in virtue of their incompleteness, by omission of part of the entangled system of which the classical-appearing subsystem is a part. I argue that this omission is only justified by implicit classical assumptions that objectify a subsystem and are employed via either a traditional Copenhagen cut or a functionally equivalent imposition of separability on a system in a non-separable state. I argue that decoherence cannot derive classicality without assuming it in some other form, and I provide an analysis of when it is appropriate to make these otherwise implicit classical assumptions by adopting a minimalistic Copenhagen-style approach to measurement. Finally, I argue that, ironically, the conditions for making these assumptions may be better satisfied in standard measurement situations than in cases of environmental monitoring

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10.1007/s11229-012-0216-6

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Scott Tanona
Kansas State University

Citations of this work

Copenhagen interpretation of quantum mechanics.Jan Faye - 2008 - Stanford Encyclopedia of Philosophy.
Niels Bohr on the wave function and the classical/quantum divide.Henrik Zinkernagel - 2016 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 53:9-19.

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References found in this work

Interpreting the Quantum World.Jeffrey Bub - 1998 - British Journal for the Philosophy of Science 49 (4):637-641.
Conceptual foundations of quantum mechanics.Bernard D' Espagnat - 1976 - Redwood City, Calif.: Addison-Wesley, Advanced Book Program.
Between classical and quantum.Nicolaas P. Landsman - 2007 - Handbook of the Philosophy of Science 2:417--553.
The role of decoherence in quantum mechanics.Guido Bacciagaluppi - 2003 - Stanford Encyclopedia of Philosophy.

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