Logic, probability, and quantum theory

Philosophy of Science 35 (2):101-111 (1968)
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Abstract

The aim of this paper is to present and discuss a probabilistic framework that is adequate for the formulation of quantum theory and faithful to its applications. Contrary to claims, which are examined and rebutted, that quantum theory employs a nonclassical probability theory based on a nonclassical "logic," the probabilistic framework set out here is entirely classical and the "logic" used is Boolean. The framework consists of a set of states and a set of quantities that are interrelated in a specified manner. Each state induces a classical probability space on the values of each quantity. The quantities, so considered, become statistical variables (not random variables). Such variables need not have a "joint distribution." For the quantum theoretic application, there is a uniform procedure that defines and determines the existence of such "joint distributions" for statistical variables. A general rule is provided and it is shown to lead to the usual compatibility-commutivity requirements of quantum theory. The paper concludes with a brief discussion of interference and the misunderstandings that are involved in the false move from interference to nonclassical probability

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10.1086/288195

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Arthur Fine
University of Washington

Citations of this work

On the completeness of quantum theory.Arthur Fine - 1974 - Synthese 29 (1-4):257 - 289.
Popper and the Quantum Theory.Michael Redhead - 1995 - Royal Institute of Philosophy Supplement 39:163-176.
On Quantum Conditional Probability.Isabel Guerra Bobo - 2013 - Theoria: Revista de TeorĂ­a, Historia y Fundamentos de la Ciencia 28 (1):115-137.

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