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First-order frames for orthomodular quantum logic

Chrysafis Hartonas

Journal of Applied Non-Classical Logics 26 (1):69-80 (2016)

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Probabilistic logic of quantum observations.A. Sernadas, J. Rasga, C. Sernadas, L. Alcácer & A. B. Henriques - 2019 - Logic Journal of the IGPL 27 (3):328-370.details A probabilistic propositional logic, endowed with a constructor for asserting compatibility of diagonalisable and bounded observables, is presented and illustrated for reasoning about the random results of projective measurements made on a given quantum state. Simultaneous measurements are assumed to imply that the underlying observables are compatible. A sound and weakly complete axiomatisation is provided relying on the decidable first-order theory of real closed ordered fields. The proposed logic is proved to be a conservative extension of classical propositional logic. Download Export citation Bookmark
Topological duality for orthomodular lattices.Joseph McDonald & Katalin Bimbó - 2023 - Mathematical Logic Quarterly 69 (2):174-191.details A class of ordered relational topological spaces is described, which we call orthomodular spaces. Our construction of these spaces involves adding a topology to the class of orthomodular frames introduced by Hartonas, along the lines of Bimbó's topologization of the class of orthoframes employed by Goldblatt in his representation of ortholattices. We then prove that the category of orthomodular lattices and homomorphisms is dually equivalent to the category of orthomodular spaces and certain continuous frame morphisms, which we call continuous weak (...) Download Export citation Bookmark
Stone duality for lattice expansions.Chrysafis Hartonas - 2018 - Logic Journal of the IGPL 26 (5):475-504.details Download Export citation Bookmark 8 citations
Order-Dual Relational Semantics for Non-distributive Propositional Logics: A General Framework.Chrysafis Hartonas - 2018 - Journal of Philosophical Logic 47 (1):67-94.details The contribution of this paper lies with providing a systematically specified and intuitive interpretation pattern and delineating a class of relational structures and models providing a natural interpretation of logical operators on an underlying propositional calculus of Positive Lattice Logic and subsequently proving a generic completeness theorem for the related class of logics, sometimes collectively referred to as Generalized Galois Logics. Download Export citation Bookmark 9 citations
Canonical Extensions and Kripke–Galois Semantics for Non-distributive Logics.Chrysafis Hartonas - 2018 - Logica Universalis 12 (3-4):397-422.details This article presents an approach to the semantics of non-distributive propositional logics that is based on a lattice representation theorem that delivers a canonical extension of the lattice. Our approach supports both a plain Kripke-style semantics and, by restriction, a general frame semantics. Unlike the framework of generalized Kripke frames, the semantic approach presented in this article is suitable for modeling applied logics, as it respects the intended interpretation of the logical operators. This is made possible by restricting admissible interpretations. Download Export citation Bookmark 5 citations

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