In Daniele C. Struppa & Jeffrey M. Tollaksen (eds.), Quantum Theory: A Two-Time Success Story. Springer. pp. 157-169 (2014)

Sean M. Carroll
California Institute of Technology
Charles Sebens
California Institute of Technology
We provide a derivation of the Born Rule in the context of the Everett (Many-Worlds) approach to quantum mechanics. Our argument is based on the idea of self-locating uncertainty: in the period between the wave function branching via decoherence and an observer registering the outcome of the measurement, that observer can know the state of the universe precisely without knowing which branch they are on. We show that there is a uniquely rational way to apportion credence in such cases, which leads directly to the Born Rule. Our analysis generalizes straightforwardly to cases of combined classical and quantum self-locating uncertainty, as in the cosmological multiverse.
Keywords Interpretation of quantum mechanics  Philosophy of Physics
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References found in this work BETA

Attitudes de Dicto and de Se.David Lewis - 1979 - Philosophical Review 88 (4):513-543.
Quantum Theory of Probability and Decisions.David Deutsch - 1999 - Proceedings of the Royal Society of London:3129--37.

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Citations of this work BETA

Privileged-Perspective Realism in the Quantum Multiverse.Nora Berenstain - 2020 - In David Glick, George Darby & Anna Marmodoro (eds.), The Foundation of Reality: Fundamentality, Space, and Time. Oxford University Press.
In Defence of the Self-Location Uncertainty Account of Probability in the Many-Worlds Interpretation.Kelvin J. McQueen & Lev Vaidman - 2019 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 66:14-23.
Interpreting the Quantum Mechanics of Cosmology.David Wallace - forthcoming - In A. Ijjas & B. Loewer (eds.), Philosophy of Cosmology: an Introduction. Oxford University Press.
Electromagnetism as Quantum Physics.Charles T. Sebens - 2019 - Foundations of Physics 49 (4):365-389.
Some Remarks on the Mathematical Structure of the Multiverse.Alan McKenzie - 2016 - PhilSci-Archive, University of Pittsburgh, USA.

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