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Books

  1. H. Andréka, Z. Gyenis, I. Németi, and I. Sain, Universal Algebraic Logic, Birkhauser, Studies in Universal Logic series, (2022)
  2. L. Csirmaz, Z. Gyenis, Mathematical Logic: Exercises and Solutions, Springer, Problem Books in Mathematics series, (2022)
  3. Hofer-Szabó, G., P. Vecsernyés, Quantum Theory and Local Causality, Dordrecht: Springer Brief (2018)
  4. Hofer-Szabó, G., L. Wronski (eds.) Making it Formally Explicit -- Probability, Causality and Indeterminism, European Studies in the Philosophy of Science Series Vol. 6, Dordrecht: Springer Verlag (2017)

Papers

    2024

  1. Hofer-Szabó G., PBR, nonreality and entangled measurement, Foundations of Physics, 54, 36 (2024)
  2. Hofer-Szabó G., Sequential measurements and the Kochen-Specker arguments, Journal for General Philosophy, 55, 29-42 (2024)
  3. Hofer-Szabó G., Kvantumelmélet és interpretáció, Magyar Filozófiai Szemle, 68/1,182-207 (2024)
  4. M. Rédei, M. Gömöri, Entropic taming of the Look Elsewhere Effect, Synthese 203, 12 (2024)
  5. Z. Gyenis, Ö. Öztürk, Amalgamation and Robinson property in Universal Algebraic Logic, Logic Journal of IGPL 32(1), pp.180–196 (2024)
  6. H. Andréka, Z. Gyenis, I. Németi, and I. Sain, Logic families, Studia Logica, Forthcoming (2024)
  7. M. Gil Sanchez, Z. Gyenis, L. Wroński, Nonclassical probability, convex hulls and Dutch books, Episteme 21(2), pp.498-518 (2024)
  8. Gyenis, B., Melyik szabad akarat létezik?, Magyar Filozófiai Szemle, 2024/1, 51-103 (2024)
  9. M. Rédei, George Polya's reaction to Imre Lakatos' "Proofs and Refutations", in Lakatos in Hungary. A narrated source book, Boston Studies in the Philosophy and History of Science, G. Daniel, Sz. Maté, A.T. Tuboly (eds.) (Springer, forthcoming)
  10. M. Rédei, The Continuing Influence of Imre Lakatos's Philosophy: A Reappraisal of his Philosophy on the Occasion of the Centenary of his Birth, R. Frigg, J. Alexander, L. Hudetz, M. Rédei, L. Ross and J. Worrall (eds.) (Berlin: Springer, forthcoming)
  11. 2023

  12. Hofer-Szabó G., Mi a kvantumállapot?, (What is the quantum state?), Fizikai Szemle, 2023/1, 17-21, (2023)
  13. Hofer-Szabó G., Az 'itt' metafizikája, (The metaphysics of 'here'), Pannonhalmi Szemle, 31/1, 119-122, (2023)
  14. M. Gil Sanchez, Z. Gyenis, L. Wroński, Probability and symmetric logic, Journal of Philosophical Logic, Vol. 52, pp.183--198, (2023)
  15. Z. Gyenis, Z. Molnár, Ö. Öztürk, The Modelwise Interpolation Property of Semantic Logics, Bulletin of the Section of Logic 52(1), pp. 59-83, (2023)
  16. A. Gopaulsingh, Z. Gyenis, and Ö. Öztürk, Subalgebra independence, Math. Reports, 25(75), Vol. 4, pp. 589-601, (2023)
  17. M. Gömöri, C. Hoefer, Classicality and Bell's Theorem, European Journal for Philosophy of Science 13, 45 (2023)
  18. L.E. Szabó, Physicalism without the idols of mathematics, Foundations of Science (2023), DOI: 10.1007/s10699-023-09920-1
  19. E. Szabó L. Fizikalizmus és a Quine–Putnam-féle nélkülözhetetlenségi argumentum, Magyar Filozófiai Szemle 66 (3) pp. 75-85 (2022)
  20. Gyenis, B., Az igazság harmadik pillanata (The third moment of truth), Különbség pp.165-183, 2023/1
  21. M. Redei, Neumann János munkássága a kvantummechnika matematikai alapjainak területén, Érintö. Elektronikus Matematikai Lapok, 28. szám 2023 június
  22. 2022

  23. M. Gömöri, Redukcionizmus: a korrelációk magyarázatán alapuló érv vázlata, Magyar Filozófiai Szemle, 66 (3), 67–74 (2022)
  24. B. Gyenis, Elmélet-szuperveniencia fizikalizmus és a fizika jövőbeli változásai, Hungarian Philosophical Review, (2022/3)
  25. Hofer-Szabó G., Two concepts of noncontextuality in quantum mechanics, Studies in History and Philosophy of Science, 93, 21-29 (2022)
  26. L. Wroński, Z. Gyenis, M.Z.Cocchiaro, What Chance-Credence Norms Should Be, Synthese, Vol. 200, Issue 6, (2022)
  27. 2021

  28. M. Gömöri and G. Hofer-Szabó, On the meaning of EPR’s Reality Criterion, Synthese, 199, 13441-13469 (2021)
  29. P. Fazekas, B. Gyenis, G. Hofer-Szabó, G. Kertész, Okság: egy dinamikus rendszereken alapuló megközelítés, Magyar Filozófiai Szemle 2021/1, 26-45.
  30. Z. Gyenis, M. Rédei, The Maxim of Probabilism -- with special regard to Reichenbach, Synthese, 199, 8857-8874 (2021)
  31. A. Banerjee, Z. Gyenis, Chromatic number of the product of graphs, graph homomorphisms, antichains and cofinal subsets of posets without AC, Commentationes Math. Univ. Carolinae, 62(3), 361-382, (2021)
  32. Hofer-Szabó G., Causal contextuality and contextuality-by-default are different concepts, Journal of Mathematical Psychology, 104, 102590. (2021)
  33. Hofer-Szabó G., Three noncontextual hidden variable models for the Peres-Mermin square, European Journal for the Philosophy of Science, 11, 30. (2021)
  34. P. Fazekas, B. Gyenis, G. Hofer-Szabó, G. Kertész, A dynamical systems approach to causation, Synthese, 198, 6065-6087. (2021)
  35. Hofer-Szabó G., Commutativity, comeasurability, and contextuality in the Kochen-Specker arguments, Philosophy of Science, 88, 483-510. (2021)
  36. Zalán Gyenis and Mikós Rédei, Having a look at the Bayes Blind Spot, Synthese, 198(4), 3801-3832, (2021)
  37. 2020

  38. Szabó, L.E. Intrinsic, Extrinsic, and the Constitutive A Priori, Found Phys 50, 555–567 (2020)
  39. E. Szabó László: A végtelen idóluma, Magyar Tudomány, Tudomány 181(11), 1509-1522. (2020)
  40. Márton Gömöri, On the Very Idea of Distant Correlations, Foundations of Physics 50, 530–554 (2020).
  41. Balázs Gyenis, Determinism, physical possibility, and laws of nature, Foundations of Physics 50, 568-581 (2020)
  42. M. Rédei. On the tension between physics and mathematics. Journal of General Philosophy of Science, 51, pp.411–425 (2020)
  43. M. Rédei and C. Hitchcock. The Common Cause Principle. Stanford Encyclopedia of Philosophy entry, published online January 13, (2020)
  44. Hofer-Szabó G., On the three types of Bell's inequality, in Orly Shenker, Meir Hemmo (eds.) Quantum, Probability, Logic: The Work and Infuence of Itamar Pitowsky, Berlin: Springer, 353-374. (2020)
  45. Zalán Gyenis, Standard Bayes logic is not finitely axiomatizable, Reviews of Symbolic Logic, 13(2), 326-337, (2020)
  46. 2019

  47. Miklós Rédei, Wissenschaftstheoretische Eigenschaften der Wissenschaften in Musils ‘Mann ohne Eigenschaften’, In K. Kokai, editor, Robert Musil und die Modernen Wissenschaften, Wechselwirkungen. Peter Lang, NoPress, Wien, December, pp. 12-25. (2019)
  48. Zalán Gyenis, Czy piraci powodują globalne ocieplenie?, Filozofuj! 2019:3(27)
  49. Márton Gömöri and László E. Szabó, On the Persistence of the Electromagnetic Field, Journal for General Philosophy of Science 50(1), 43-61, (2019)
  50. Gábor Hofer-Szabó, Quantum mechanics as a representation of classical conditional probabilities, Journal of Mathematical Physics, 60, 062106 (2019)
  51. William Brown, Zalán Gyenis, Miklós Rédei, The modal logic of Bayesian belief revision, Journal of Philosophical Logic, 48(5), 809-824, (2019)
  52. 2018

  53. Márton Gömöri, Valószínűség, véletlen és a közösok-elv (“Probability, randomness and the Common Cause Principe”), Magyar Filozófiai Szemle (Hungarian Philosophical Review), 62(2), 63-82, (2018)
  54. Zalán Gyenis and Miklós Rédei, General properties of Bayesian learning as statistical inference determined by conditional expectations, Reviews of Symbolic Logic 10, 719-755, (2018)
  55. Zalán Gyenis and Miklós Rédei, Categorial subsystem independence as morphism co-possibility, Communications in Mathematical Physics, 357, 447-465, (2018)
  56. Zalán Gyenis, Algebraic characterization of the local Craig interpolation property, Bulletin of the Section of Logic, Vol. 47, No. 1, pp. 45–59, (2018)
  57. Zalán Gyenis, On the modal logic of Jeffrey conditionalization, Logica Universalis, 12, Issue 3–4, 351–374, (2018)
  58. Miklós Rédei, Categorial local quantum physics, Reality and Measurement in Algebraic Quantum Theory. Springer Proceedings in Mathematics and Statistics, Springer, (2018)
  59. Miklós Rédei, Parallels and divergencies: Gödel and von Neumann, Magyar Filozófiai Szemle, 62(4):168–181, (2018)
  60. Gábor Hofer-Szabó, Bell’s local causality is a d-separation criterion, Reality and Measurement in Algebraic Quantum Theory. Springer Proceedings in Mathematics and Statistics, Springer, 67-82, (2018)
  61. Gábor Hofer-Szabó and Péter Vecsernyés, Quantum Theory and Local Causality, Dordrecht: Springer Brief, (2018)
  62. Gábor Hofer-Szabó, A kvantumelmélet nehéz öröksége, Különbség, 18/1, 81-87, (2018)
  63. 2017

  64. Márton Gömöri and Tomasz Placek, Small probability space formulation of Bell’s theorem, in: Gábor Hofer-Szabó and Leszek Wronski (eds.) Making it Formally Explicit – Probability, Causality and Indeterminism, European Studies in the Philosophy of Science Series Vol. 6, Springer Verlag (2017)
  65. Márton Gömöri, Balázs Gyenis and Gábor Hofer-Szabó, How do macrostates come about?, in: Gábor Hofer-Szabó and Leszek Wronski (eds.) Making it Formally Explicit – Probability, Causality and Indeterminism, European Studies in the Philosophy of Science Series Vol. 6, Springer Verlag (2017)
  66. Balázs Gyenis, Maxwell and the normal distribution: a colored story of probability, independence, and tendency toward equilibrium, Studies in History and Philosophy of Modern Physics, 57, 53-65 (2017)
  67. Balázs Gyenis, Ki magyarázta először az egyensúly felé törekvést? (Who explained first the tendency towards equilibrium?), Fizikai Szemle, 750, 190-192 (2017)
  68. Balázs Gyenis and Leszek Wronski, Is it the Principal Principle that implies the Principle of Indifference?, in: Gábor Hofer-Szabó and Leszek Wronski (eds.) Making it Formally Explicit – Probability, Causality and Indeterminism, European Studies in the Philosophy of Science Series Vol. 6, Springer Verlag (2017)
  69. Zalán Gyenis, Skeleton in the Euclidean closet”, Kálmán–Kornai 120 Festschrift, Beáta Gyuris, Katalin Mády, and Gábor Recski (eds.), Research Institute for Linguistics, (2017)
  70. Zalán Gyenis and Miklós Rédei, A principled analysis of consistency of an Abstract Principal Principle, in: Gábor Hofer-Szabó and Leszek Wronski (eds.) Making it Formally Explicit – Probability, Causality and Indeterminism, European Studies in the Philosophy of Science Series Vol. 6, Springer Verlag, 3-33, (2017)
  71. Zalán Gyenis, Gábor Hofer-Szabó and Miklós Rédei, Conditioning using conditional expectation: the Borel-Kolmogorov paradox, Synthese, 194(7), 2595-2630, (2017)
  72. Gábor Hofer-Szabó, Julian Barbour időtlen világa, Veress Károly (ed.) Emlékezet és felejtés. Interdiszciplináris párbeszéd 5., Kolozsvár, Egyetemi Műhely Kiadó, 11-24., (2017)
  73. Gábor Hofer-Szabó, Matematika, filozófia és megértés, Műhely, 5-6, 86-88., (2017)
  74. Gábor Hofer-Szabó, A kvantummechanika és a huzat logikája, Magyar Tudomány, 44-47, (2017)
  75. Gábor Hofer-Szabó, How human and nature shake hands: the role of no-conspiracy in physical theories, Studies in the History and Philosophy of Modern Physics, 57, 89-97 (2017)
  76. Gábor Hofer-Szabó and Leszek Wronski (eds.) Making it Formally Explicit – Probability, Causality and Indeterminism, European Studies in the Philosophy of Science Series Vol. 6, Springer Verlag (2017)
  77. László E. Szabó, Meaning, Truth, and Physics, in: Gábor Hofer-Szabó and Leszek Wronski (eds.) Making it Formally Explicit – Probability, Causality and Indeterminism, European Studies in the Philosophy of Science Series Vol. 6, Springer Verlag (2017)
  78. 2016

  79. Zalán Gyenis and Miklós Rédei, Common cause completability of non-classical probability spaces, Belgrade Philosophical Annual 29, 15-32 (2016)
  80. Zalán Gyenis and Miklós Rédei, Measure theoretic analysis of consistency of the Principal Principle, Philosophy of Science 83, 972-987, (2016)
  81. Gábor Hofer-Szabó, Three principles leading to the Bell inequalities, Belgrade Philosophical Annual, 29, 57-66, (2016)
  82. Gábor Hofer-Szabó and Péter Vecsernyés, A generalized definition of Bell’s local causality, Synthese, 193(10), 3195–3207 (2016)
  83. 2015

  84. Márton Gömöri and László E. Szabó, Formal statement of the special principle of relativity, Synthese, 192, 2053–2076 (2015)
  85. Zalán Gyenis and Miklós Rédei, Defusing Bertrand’s paradox, The British Journal for the Philosophy of Science, 66(2), 349–373 (2015)
  86. Zalán Gyenis and Miklós Rédei, Why Bertrand’s paradox is not paradoxical but is felt so, in U. Mäki, ‎I. Votsis, ‎S. Ruphy, G. Schurz (eds.), Recent Developments in the Philosophy of Science: EPSA13 Helsinki, Springer Verlag, 265–276 (2015)
  87. Gábor Hofer-Szabó, Local causality and complete specification: a reply to Seevinck and Uffink, in U. Mäki, ‎I. Votsis, ‎S. Ruphy, G. Schurz (eds.), Recent Developments in the Philosophy of Science: EPSA13 Helsinki, Springer Verlag, 209-226 (2015)
  88. Gábor Hofer-Szabó, Relating Bell’s local causality to the Causal Markov Condition, Foundations of Physics. 45(9), 1110-1136 (2015)
  89. Gábor Hofer-Szabó and Péter Vecsernyés, On the concept of Bell’s local causality in local classical and quantum theory, Journal of Mathematical Physics, 56, 032303 (2015)
  90. Gábor Hofer-Szabó, On the relation between the probabilistic characterization of the common cause and Bell’s notion of local causality, Studies in the History and Philosophy of Modern Physics, 49, 32-41 (2015)
  91. Yuichiro Kitajima and Miklós Rédei, Characterizing common cause closedness of quantum probability theories, Studies in History and Philosophy of Modern Physics, 52, 234-241 (2015)