Shutters, boxes, but no paradoxes: Time symmetry puzzles in quantum theory

International Studies in the Philosophy of Science 18 (1):89 – 94 (2004)
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Abstract

The "N-box experiment" is a much-discussed thought experiment in quantum mechanics. It is claimed by some authors that a single particle prepared in a superposition of N+1 box locations and which is subject to a final "post-selection" measurement corresponding to a different superposition can be said to have occupied "with certainty" N boxes during the intervening time. However, others have argued that under closer inspection, this surprising claim fails to hold. Aharonov and Vaidman have continued their advocacy of the claim in question by proposing a variation on the N-box experiment, in which the boxes are replaced by shutters and the pre- and post-selected particle is entangled with a photon. These authors argue that the resulting "N-shutter experiment" strengthens their original claim regarding the N-box experiment. It is argued in this article that the apparently surprising features of this variation are no more robust than those of the N-box experiment and that it is not accurate to say that the particle is "with certainty" in all N shutters at any given time. [Enlarge Image].

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10.1080/02698590412331289279

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Time-Symmetrised Quantum Theory, Counterfactuals and 'Advanced Action'.R. E. Kastner - 1999 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 30 (2):237-259.
Time-Symmetrised Quantum Theory, Counterfactuals and ‘Advanced Action’.R. E. Kastner - 1999 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 30 (2):237-259.

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