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  1. Relational quantum mechanics, causal composition, and molecular structure.Stephen Esser - 2024 - Foundations of Chemistry 26 (3):429-446.
    Franklin and Seifert (2021) argue that solving the measurement problem of quantum mechanics (QM) also answers a question central to the philosophy of chemistry: that of how to reconcile QM with the existence of definite molecular structures. This conclusion may appear premature, however, because interactions play a crucial role in shaping molecules, but we generally lack detailed models of how this is accomplished. Given this explanatory gap, simply choosing an interpretation of QM is insufficient, unless the interpretation also has relevant (...)
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  • Finding Time for Wheeler-DeWitt Cosmology.Nick Huggett & Karim Thebault - manuscript
    We conduct a case study analysis of a proposal for the emergence of time based upon the approximate derivation of three grades of temporal structure within an explicit quantum cosmological model which obeys a Wheeler-DeWitt type equation without an extrinsic time parameter. Our main focus will be issues regarding the consistency of the approximations and derivations in question. Our conclusion is that the model provides a self-consistent account of the emergence of chronordinal, chronometric and chronodirected structure. Residual concerns relate to (...)
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  • Chemical reduction and quantum interpretation: A case for thomistic emergence.Ryan Miller - 2023 - Foundations of Chemistry 25 (3):405-417.
    The debate between ontological reductionists and emergentists in chemistry has revolved around quantum mechanics. What Franklin and Seifert (BJPS 2020) add to the long-running dispute is an attention to the measurement problem. They contend that all three realist interpretations of the quantum formalism capable of resolving the measurement problem also obviate any need for chemical emergence. I push their argument further, arguing that the realist interpretations of quantum mechanics actually subvert the basis for reduction as well, by undercutting the idea (...)
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  • Interview with Olimpia Lombardi.Eric R. Scerri - 2022 - Foundations of Chemistry 25 (1):101-117.
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  • On the Ontological Status of Molecular Structure: Is it Possible to Reconcile Molecular Chemistry with Quantum Mechanics?Sebastian Fortin, Martín Labarca & Olimpia Lombardi - 2022 - Foundations of Science 28 (2):709-725.
    According to classical molecular chemistry, molecules have a structure, that is, they are sets of atoms with a definite arrangements in space and held together by chemical bonds. The concept of molecular structure is central to modern chemical thought given its impressive predictive power. It is also a very useful concept in chemistry education, due to its role in the rationalization and visualization of microscopic phenomena. However, such a concept seems to find no place in the ontology described by quantum (...)
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