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  1. Selective Realism and the Framework/Interaction Distinction: A Taxonomy of Fundamental Physical Theories.Federico Benitez - 2019 - Foundations of Physics 49 (7):700-716.
    Following the proposal of a new kind of selective structural realism that uses as a basis the distinction between framework and interaction theories, this work discusses relevant applications in fundamental physics. An ontology for the different entities and properties of well-known theories is thus consistently built. The case of classical field theories—including general relativity as a classical theory of gravitation—is examined in detail, as well as the implications of the classification scheme for issues of realism in quantum mechanics. These applications (...)
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  • A single-world consistent interpretation of quantum mechanics from fundamental time and length uncertainties.Rodolfo Gambini, Luis Pedro Garcia-Pintos & Jorge Pullin - 2018 - Physical Review A 100 (012).
    Within ordinary ---unitary--- quantum mechanics there exist global protocols that allow to verify that no definite event ---an outcome to which a probability can be associated--- occurs. Instead, states that start in a coherent superposition over possible outcomes always remain as a superposition. We show that, when taking into account fundamental errors in measuring length and time intervals, that have been put forward as a consequence of a conjunction of quantum mechanical and general relativity arguments, there are instances in which (...)
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  • The Pauli Objection.Juan Leon & Lorenzo Maccone - 2017 - Foundations of Physics 47 (12):1597-1608.
    Schrödinger’s equation says that the Hamiltonian is the generator of time translations. This seems to imply that any reasonable definition of time operator must be conjugate to the Hamiltonian. Then both time and energy must have the same spectrum since conjugate operators are unitarily equivalent. Clearly this is not always true: normal Hamiltonians have lower bounded spectrum and often only have discrete eigenvalues, whereas we typically desire that time can take any real value. Pauli concluded that constructing a general a (...)
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  • The Montevideo Interpretation of Quantum Mechanics: a short review.Rodolfo Gambini & Jorge Pullin - 2015 - Entropy 20 (6).
    The Montevideo interpretation of quantum mechanics, which consists in supplementing environmental decoherence with fundamental limitations in measurement stemming from gravity, has been described in several publications. However, some of them appeared before the full picture provided by the interpretation was developed. As such it can be difficult to get a good understanding via the published literature. Here we summarize it in a self contained brief presentation including all its principal elements.
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  • Assessing the Montevideo interpretation of quantum mechanics.Jeremy Butterfield - 2015 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 52 (Part A):75-85.
    This paper gives a philosophical assessment of the Montevideo interpretation of quantum theory, advocated by Gambini, Pullin and co-authors. This interpretation has the merit of linking its proposal about how to solve the measurement problem to the search for quantum gravity: namely by suggesting that quantum gravity makes for fundamental limitations on the accuracy of clocks, which imply a type of decoherence that “collapses the wave-packet”. I begin by sketching the topics of decoherence, and quantum clocks, on which the interpretation (...)
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  • Quantum mechanics, strong emergence and ontological non-reducibility.Rodolfo Gambini, Lucía Lewowicz & Jorge Pullin - 2015 - Foundations of Chemistry 17 (2):117-127.
    We show that a new interpretation of quantum mechanics, in which the notion of event is defined without reference to measurement or observers, allows to construct a quantum general ontology based on systems, states and events. Unlike the Copenhagen interpretation, it does not resort to elements of a classical ontology. The quantum ontology in turn allows us to recognize that a typical behavior of quantum systems exhibits strong emergence and ontological non-reducibility. Such phenomena are not exceptional but natural, and are (...)
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