How to solve the measurement problem of quantum mechanics

Foundations of Physics 18 (7):701-722 (1988)
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Abstract

A solution to the measurement problem of quantum mechanics is proposed within the framework of an intepretation according to which only quantum systems with an infinite number of degrees of freedom have determinate properties, i.e., determinate values for (some) observables of the theory. The important feature of the infinite case is the existence of many inequivalent irreducible Hilbert space representations of the algebra of observables, which leads, in effect, to a restriction on the superposition principle, and hence the possibility of defining (macro-) observables which commute with every observable. Such observables have determinate values which are not subject to quantum interference effects. A measurement process is schematized as an interaction between a microsystem and a macrosystem, idealized as an infinite quantum system, and it is shown that there exists a unitary transformation which transforms the initial pure state of the composite system in a finite time (the duration of the interaction) into the required mixture of disjoint states

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10.1007/bf00734151

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Jeffrey Bub
University of Maryland, College Park

Citations of this work

Between classical and quantum.Nicolaas P. Landsman - 2007 - Handbook of the Philosophy of Science 2:417--553.
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Superselection Rules for Philosophers.John Earman - 2008 - Erkenntnis 69 (3):377-414.

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References found in this work

Quantum Theory and Measurement.J. A. Wheeler & W. H. Zurek - 1986 - Synthese 67 (3):527-530.
Quantum Theory and Measurement.John Archibald Wheeler & Wojciech Hubert Zurek - 1985 - Philosophy of Science 52 (3):480-481.

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