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  1. A Non-Spatial Reality.Massimiliano Sassoli de Bianchi - 2020 - Foundations of Science 26 (1):143-170.
    It is generally assumed, and usually taken for granted, that reality is fully contained in space. However, when taking a closer look at the strange behavior of the entities of the micro-world, we are forced to abandon such a prejudice and recognize that space is just a temporary crystallization of a small theatre for reality, where the material entities can take a place and meet with each other. More precisely, phenomena like quantum entanglement, quantum interference effects and quantum indistinguishability, when (...)
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  • Quantum Superpositions and the Representation of Physical Reality Beyond Measurement Outcomes and Mathematical Structures.Christian de Ronde - 2016 - Foundations of Science 23 (4):621-648.
    In this paper we intend to discuss the importance of providing a physical representation of quantum superpositions which goes beyond the mere reference to mathematical structures and measurement outcomes. This proposal goes in the opposite direction to the project present in orthodox contemporary philosophy of physics which attempts to “bridge the gap” between the quantum formalism and common sense “classical reality”—precluding, right from the start, the possibility of interpreting quantum superpositions through non-classical notions. We will argue that in order to (...)
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  • (1 other version)On the Conceptuality Interpretation of Quantum and Relativity Theories.Tomas Veloz, Sandro Sozzo, Massimiliano Sassoli de Bianchi & Diederik Aerts - 2020 - Foundations of Science 25 (1):5-54.
    How can we explain the strange behavior of quantum and relativistic entities? Why do they behave in ways that defy our intuition about how physical entities should behave, considering our ordinary experience of the world around us? In this article, we address these questions by showing that the comportment of quantum and relativistic entities is not that strange after all, if we only consider what their nature might possibly be: not an objectual one, but a conceptual one. This not in (...)
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  • Unscrambling the Omelette of Quantum Contextuality : Preexistent Properties or Measurement Outcomes?Christian de Ronde - 2020 - Foundations of Science 25 (1):55-76.
    In this paper we attempt to analyze the physical and philosophical meaning of quantum contextuality. We will argue that there exists a general confusion within the foundational literature arising from the improper “scrambling” of two different meanings of quantum contextuality. While the first one, introduced by Bohr, is related to an epistemic interpretation of contextuality which stresses the incompatibility of measurement situations described in classical terms; the second meaning of contextuality is related to a purely formal understanding of contextuality as (...)
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  • Using Abstract Elastic Membranes to Learn About Quantum Measurements.Massimiliano Sassoli de Bianchi - 2020 - Foundations of Science 25 (1):77-85.
    The objectives of the Center Leo Apostel for Interdisciplinary Studies were summarized by his creator as: interdisciplinarity, construction of world views and broad dissemination of scientific knowledge. In compliance with the third of these objectives, we provide a rigorous but accessible popular science version of a research article published by Aerts and Sassoli de Bianchi, where an extended version of the quantum formalism was proposed as a possible solution to the measurement problem. We hope that through articles of this kind, (...)
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  • Theoretical and Conceptual Analysis of the Celebrated 4π-Symmetry Neutron Interferometry Experiments.Massimiliano Sassoli de Bianchi - 2017 - Foundations of Science 22 (3):627-653.
    In 1975, two experimental groups have independently observed the \-symmetry of neutrons’ spin, when passing through a static magnetic field, using a three-blade interferometer made from a single perfect Si-crystal. In this article, we provide a complete analysis of the experiment, both from a theoretical and conceptual point of view. Firstly, we solve the Schrödinger equation in the weak potential approximation, to obtain the amplitude of the refracted and forward refracted beams, produced by the passage of neutrons through one of (...)
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  • Against Collapses, Purity and Separability Within the Definition of Quantum Entanglement.Christian de Ronde & Massri Cesar - unknown
    In this paper we we will argue against the orthodox definition of quantum entanglement which has been implicitly grounded on several widespread presuppositions which have no relation whatsoever to the formalism of QM. We will show how these presuppositions have been introduced through a naive interpretation of the quantum mathematical structure which assumes dogmatically that the theory talks about "small particles" represented by pure states which suddenly "collapse" when a measurement takes place. In the second part of this paper we (...)
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