Individuation in Quantum Mechanics and Space-Time

Foundations of Physics 40 (9-10):1396-1409 (2010)
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Abstract

Two physical approaches—as distinct, under the classification of Mittelstaedt, from formal approaches—to the problem of individuation of quantum objects are considered, one formulated in spatiotemporal terms and one in quantum mechanical terms. The spatiotemporal approach itself has two forms: one attributed to Einstein and based on the ontology of space-time points, and the other proposed by Howard and based on intersections of world lines. The quantum mechanical approach is also provided here in two forms, one based on interference and another based on a new Quantum Principle of Individuation (QPI). It is argued that the space-time approach to individuation fails and that the quantum approach offers several advantages over it, including consistency with Leibniz’s Principle of Identity of Indiscernibles

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10.1007/s10701-010-9489-0

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Gregg Jaeger
Boston University

Citations of this work

Interpreting Quantum Entanglement: Steps towards Coherentist Quantum Mechanics.Matteo Morganti & Claudio Calosi - 2021 - British Journal for the Philosophy of Science 72 (3):865-891.

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References found in this work

The principles of quantum mechanics.Paul Dirac - 1930 - Oxford,: Clarendon Press.
The Principles of Quantum Mechanics.P. A. M. Dirac - 1936 - Revue de Métaphysique et de Morale 43 (2):5-5.
The problem of indistinguishable particles.Bas van Fraassen - 1984 - In James T. Cushing, Cornelius F. Delaney & Gary Gutting (eds.), Science and Reality: Recent Work in the Philosophy of Science. University of Notre Dame Press.
QED: The Strange Theory of Light and Matter.Richard P. Feynman - 1985 - Science and Society 51 (2):211-214.

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