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  1. Quantum Weak Values and Logic: An Uneasy Couple.Bengt E. Y. Svensson - 2017 - Foundations of Physics 47 (3):430-452.
    Quantum mechanical weak values of projection operators have been used to answer which-way questions, e.g. to trace which arms in a multiple Mach–Zehnder setup a particle may have traversed from a given initial to a prescribed final state. I show that this procedure might lead to logical inconsistencies in the sense that different methods used to answer composite questions, like “Has the particle traversed the way X or the way Y?”, may result in different answers depending on which methods are (...)
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  • Non-representative Quantum Mechanical Weak Values.B. E. Y. Svensson - 2015 - Foundations of Physics 45 (12):1645-1656.
    The operational definition of a weak value for a quantum mechanical system involves the limit of the weak measurement strength tending to zero. I study how this limit compares to the situation for the undisturbed system. Under certain conditions, which I investigate, this limit is discontinuous in the sense that it does not merge smoothly to the Hilbert space description of the undisturbed system. Hence, in these discontinuous cases, the weak value does not represent the undisturbed system. As a result, (...)
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  • What Is a Quantum-Mechanical “Weak Value” the Value of?Bengt E. Y. Svensson - 2013 - Foundations of Physics 43 (10):1193-1205.
    A so called “weak value” of an observable in quantum mechanics (QM) may be obtained in a weak measurement + post-selection procedure on the QM system under study. Applied to number operators, it has been invoked in revisiting some QM paradoxes (e.g., the so called Three-Box Paradox and Hardy’s Paradox). This requires the weak value to be interpreted as a bona fide property of the system considered, a par with entities like operator mean values and eigenvalues. I question such an (...)
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  • The transactional interpretation, counterfactuals, and weak values in quantum theory.Ruth E. Kastner - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 39 (4):806-818.
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  • Current Bibliography of the History of Science and Its Cultural Influences 2005.Stephen P. Weldon - 2005 - Isis 96:1-242.
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  • Quantum mechanics as a consistency condition on initial and final boundary conditions.David John Miller - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 39 (4):767-781.
    If the block universe view is correct, the future and the past have similar status and one would expect physical theories to involve final as well as initial boundary conditions. A plausible consistency condition between the initial and final boundary conditions in non-relativistic quantum mechanics leads to the idea that the properties of macroscopic quantum systems, relevantly measuring instruments, are uniquely determined by the boundary conditions. An important element in reaching that conclusion is that preparations and measurements belong in a (...)
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