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On the Possibility to Combine the Order Effect with Sequential Reproducibility for Quantum Measurements
Foundations of Physics 45 (10):1379-1393 (2015)
Abstract
In this paper we study the problem of a possibility to use quantum observables to describe a possible combination of the order effect with sequential reproducibility for quantum measurements. By the order effect we mean a dependence of probability distributions on the order of measurements. We consider two types of the sequential reproducibility: adjacent reproducibility ) and separated reproducibility). The first one is reproducibility with probability 1 of a result of measurement of some observable A measured twice, one A measurement after the other. The second one, \, is reproducibility with probability 1 of a result of A measurement when another quantum observable B is measured between two A’s. Heuristically, it is clear that the second type of reproducibility is complementary to the order effect. We show that, surprisingly, this may not be the case. The order effect can coexist with a separated reproducibility as well as adjacent reproducibility for both observables A and B. However, the additional constraint in the form of separated reproducibility of the \ type makes this coexistence impossible. The problem under consideration was motivated by attempts to apply the quantum formalism outside of physics, especially, in cognitive psychology and psychophysics. However, it is also important for foundations of quantum physics as a part of the problem about the structure of sequential quantum measurementsAuthor's Profile
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Citations of this work
Quantum-like models cannot account for the conjunction fallacy.Thomas Boyer-Kassem, Sébastien Duchêne & Eric Guerci - 2016 - Theory and Decision 81 (4):479-510.
References found in this work
Quantum Models of Cognition and Decision.Jerome R. Busemeyer & Peter D. Bruza - 2012 - Cambridge University Press.
On the quantum theory of sequential measurements.Paul Busch, Gianni Cassinelli & Pekka J. Lahti - 1990 - Foundations of Physics 20 (7):757-775.
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