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  1. Two conceptions of the chemical bond.Robin Findlay Hendry - 2008 - Philosophy of Science 75 (5):909-920.
    In this article I sketch G. N. Lewis’s views on chemical bonding and Linus Pauling’s attempt to preserve Lewis’s insights within a quantum‐mechanical theory of the bond. I then set out two broad conceptions of the chemical bond, the structural and the energetic views, which differ on the extent in which they preserve anything like the classical chemical bond in the modern quantum‐mechanical understanding of molecular structure. †To contact the author, please write to: Department of Philosophy, Durham University, 50 Old (...)
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  • Compatibility between Environment-Induced Decoherence and the Modal-Hamiltonian Interpretation of Quantum Mechanics.Olimpia Lombardi, Juan Sebastián Ardenghi, Sebastian Fortin & Mario Castagnino - 2011 - Philosophy of Science 78 (5):1024-1036.
    Given the impressive success of environment-induced decoherence, nowadays no interpretation of quantum mechanics can ignore its results. The modal-Hamiltonian interpretation has proved to be effective for solving several interpretative problems, but since its actualization rule applies to closed systems, it seems to stand at odds with EID. The purpose of this article is to show that this is not the case: the states einselected by the interaction with the environment according to EID are the eigenvectors of an actual-valued observable belonging (...)
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  • Dissipating the quantum measurement problem.Richard Healey - 1995 - Topoi 14 (1):55-65.
    The integration of recent work on decoherence into a so-called modal interpretation offers a promising new approach to the measurement problem in quantum mechanics. In this paper I explain and develop this approach in the context of the interactive interpretation presented in Healey (1989). I begin by questioning a number of assumptions which are standardly made in setting up the measurement problem, and I conclude that no satisfactory solution can afford to ignore the influence of the environment. Further, I argue (...)
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  • Explanation and theory formation in quantum chemistry.Hinne Hettema - 2009 - Foundations of Chemistry 11 (3):145-174.
    In this paper I expand Eric Scerri’s notion of Popper’s naturalised approach to reduction in chemistry and investigate what its consequences might be. I will argue that Popper’s naturalised approach to reduction has a number of interesting consequences when applied to the reduction of chemistry to physics. One of them is that it prompts us to look at a ‘bootstrap’ approach to quantum chemistry, which is based on specific quantum theoretical theorems and practical considerations that turn quantum ‘theory’ into quantum (...)
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  • A modal-Hamiltonian interpretation of quantum mechanics.Olimpia Lombardi & Mario Castagnino - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 39 (2):380-443.
    The aim of this paper is to introduce a new member of the family of the modal interpretations of quantum mechanics. In this modal-Hamiltonian interpretation, the Hamiltonian of the quantum system plays a decisive role in the property-ascription rule that selects the definite-valued observables whose possible values become actual. We show that this interpretation is effective for solving the measurement problem, both in its ideal and its non-ideal versions, and we argue for the physical relevance of the property-ascription rule by (...)
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  • (1 other version)Why decoherence has not solved the measurement problem: a response to P.W. Anderson.Stephen L. Adler - 2003 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 34 (1):135-142.
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  • Partial Traces in Decoherence and in Interpretation: What Do Reduced States Refer to?Sebastian Fortin & Olimpia Lombardi - 2014 - Foundations of Physics 44 (4):426-446.
    The interpretation of the concept of reduced state is a subtle issue that has relevant consequences when the task is the interpretation of quantum mechanics itself. The aim of this paper is to argue that reduced states are not the quantum states of subsystems in the same sense as quantum states are states of the whole composite system. After clearly stating the problem, our argument is developed in three stages. First, we consider the phenomenon of environment-induced decoherence as an example (...)
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  • A comment on “Editorial 37”.Brian T. Sutcliffe & R. Guy Woolley - 2011 - Foundations of Chemistry 13 (2):93-95.
    A comment on “Editorial 37” Content Type Journal Article Pages 93-95 DOI 10.1007/s10698-011-9110-4 Authors Brian T. Sutcliffe, Laboratoire de Chimie quantique et Photophysique, Université Libre de Bruxelles, B-1050 Bruxelles, Belgium R. Guy Woolley, School of Biomedical and Natural Sciences, Nottingham Trent University, Nottingham, NG11 8NS UK Journal Foundations of Chemistry Online ISSN 1572-8463 Print ISSN 1386-4238 Journal Volume Volume 13 Journal Issue Volume 13, Number 2.
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  • Ontological reduction and molecular structure.Robin Findlay Hendry - 2010 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 41 (2):183-191.
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  • Matters are not so clear on the physical side.Mario Castagnino - 2010 - Foundations of Chemistry 12 (2):159-166.
    According to ontological reductionism, molecular chemistry refers, at last, to the quantum ontology; therefore, the ontological commitments of chemistry turn out to be finally grounded on quantum mechanics. The main problem of this position is that nobody really knows what quantum ontology is. The purpose of this work is to argue that the confidence in the existence of the physical entities described by quantum mechanics does not take into account the interpretative problems of the theory: in the discussions about the (...)
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  • The physicists, the chemists, and the pragmatics of explanation.Robin Findlay Hendry - 2004 - Philosophy of Science 71 (5):1048-1059.
    In this paper I investigate two views of theoretical explanation in quantum chemistry, advocated by John Clarke Slater and Charles Coulson. Slater argued for quantum‐mechanical rigor, and the primacy of fundamental principles in models of chemical bonding. Coulson emphasized systematic explanatory power within chemistry, and continuity with existing chemical explanations. I relate these views to the epistemic contexts of their disciplines.
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  • Interpreting the Quantum World.Jeffrey Bub - 1998 - British Journal for the Philosophy of Science 49 (4):637-641.
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  • Editorial 37.Eric R. Scerri - 2011 - Foundations of Chemistry 13 (1):1-7.
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