Your search keyword '"KOCHEN-Specker theorem"' showing total 1,321 results

1. Hidden Variables in Quantum Mechanics from the Perspective of Boltzmannian Statistical Mechanics

Author

Dustin Lazarovici

Subjects

quantum foundations, hidden variables, statistical mechanics, Kochen–Specker theorem, Bell’s theorem, contextuality, Physics, QC1-999

Abstract

This paper examines no-hidden-variables theorems in quantum mechanics from the point of view of statistical mechanics. It presents a general analysis of the measurement process in the Boltzmannian framework that leads to a characterization of (in)compatible measurements and reproduces several features of quantum probabilities often described as “non-classical”. The analysis is applied to versions of the Kochen–Specker and Bell theorems to shed more light on their implications. It is shown how, once the measurement device and the active role of the measurement process are taken into account, contextuality appears as a natural feature of random variables. This corroborates Bell’s criticism that no-go results of the Kochen–Specker type are based on gratuitous assumptions. In contrast, Bell-type theorems are much more profound, but should be understood as nonlocality theorems rather than no-hidden-variables theorems. Finally, the paper addresses misunderstandings and misleading terminology that have confused the debate about hidden variables in quantum mechanics.

Published

2024

2. Hidden Variables in Quantum Mechanics from the Perspective of Boltzmannian Statistical Mechanics.

Author

Lazarovici, Dustin

Subjects

QUANTUM mechanics, STATISTICAL mechanics, RANDOM variables, PROBABILITY theory, TERMS & phrases, BELL'S theorem

Abstract

This paper examines no-hidden-variables theorems in quantum mechanics from the point of view of statistical mechanics. It presents a general analysis of the measurement process in the Boltzmannian framework that leads to a characterization of (in)compatible measurements and reproduces several features of quantum probabilities often described as "non-classical". The analysis is applied to versions of the Kochen–Specker and Bell theorems to shed more light on their implications. It is shown how, once the measurement device and the active role of the measurement process are taken into account, contextuality appears as a natural feature of random variables. This corroborates Bell's criticism that no-go results of the Kochen–Specker type are based on gratuitous assumptions. In contrast, Bell-type theorems are much more profound, but should be understood as nonlocality theorems rather than no-hidden-variables theorems. Finally, the paper addresses misunderstandings and misleading terminology that have confused the debate about hidden variables in quantum mechanics. [ABSTRACT FROM AUTHOR]

Published

2024

3. Binary quantum random number generator based on value indefinite observables

Author

Cristian S. Calude and Karl Svozil

Subjects

Three-dimensional quantum random generator quantum, Quantum value indefinite observable, Kochen–Specker Theorem, Located Kochen–Specker Theorem, Maximal unpredictable sequences, Medicine, Science

Abstract

Abstract All quantum random number generators based on measuring value indefinite observables are at least three-dimensional because the Kochen–Specker Theorem and the Located Kochen–Specker Theorem are false in dimension two. In this article, we construct quantum random number generators based on measuring a three-dimensional value indefinite observable that generates binary quantum random outputs with the same randomness qualities as the ternary ones: the outputs are maximally unpredictable.

Published

2024

4. Binary quantum random number generator based on value indefinite observables.

Author

Calude, Cristian S. and Svozil, Karl

Subjects

*RANDOM number generators, *QUANTUM numbers

Abstract

All quantum random number generators based on measuring value indefinite observables are at least three-dimensional because the Kochen–Specker Theorem and the Located Kochen–Specker Theorem are false in dimension two. In this article, we construct quantum random number generators based on measuring a three-dimensional value indefinite observable that generates binary quantum random outputs with the same randomness qualities as the ternary ones: the outputs are maximally unpredictable. [ABSTRACT FROM AUTHOR]

Published

2024

5. On algebraic naturalism and metaphysical indeterminacy in quantum mechanics.

Author

Menon, Tushar

Subjects

*METAPHYSICAL naturalism, *QUANTUM mechanics, *NATURALISM

Abstract

I propose a technique for identifying fundamental properties using structures already present in physical theories. I argue that, in conjunction with a particular naturalistic commitment, that I dub 'algebraic naturalism', these structures can be used to generate a standard of metaphysical determinacy. This standard can be used to rule out the possibility of a virulent strain of 'deep' metaphysical indeterminacy that has been imputed to quantum mechanics. [ABSTRACT FROM AUTHOR]

Published

2024

6. Sequential Measurements and the Kochen–Specker Arguments.

Author

Hofer-Szabó, Gábor

Subjects

*ARGUMENT, *MEASUREMENT

Abstract

It will be shown that the Peres–Mermin square admits value-definite noncontextual hidden-variable models if the observables associated with the operators can be measured only sequentially but not simultaneously. Namely, sequential measurements allow for noncontextual models in which hidden states update between consecutive measurements. Two recent experiments realizing the Peres–Mermin square by sequential measurements will also be analyzed along with other hidden-variable models accounting for these experiments. [ABSTRACT FROM AUTHOR]

Published

2024

7. Simultaneous all-versus-nothing refutation of local realism and noncontextuality by a single system

Author

Min-Gang Zhou, Hua-Lei Yin, and Zeng-Bing Chen

Subjects

Bell’s theorem, Kochen–Specker theorem, Quantum nonlocality, Quantum contextuality, Physics, QC1-999

Abstract

The quantum realms of nonlocality and contextuality are delineated by Bell’s theorem and the Kochen–Specker theorem, respectively, embodying phenomena that surpass the explanatory capacities of classical theories. These realms hold transformative potential for the fields of information and computing technology. In this study, we unveil a “all-versus-nothing” proof that concurrently illustrates the veracity of these two seminal theorems, fostering a more nuanced comprehension of the intricate relationship intertwining quantum nonlocality and contextuality. Leveraging the capabilities of three singlet pairs and a Greenberger–Horne–Zeilinger state analyzer, our proof not only substantiates the conflict between quantum mechanics and hidden-variable theories from another perspective, but can also be readily verifiable utilizing the existing linear optics technology.

Published

2024

8. Putting Paradoxes to Work: Contextuality in Measurement-Based Quantum Computation

Author

Raussendorf, Robert, Hansson, Sven Ove, Editor-in-Chief, Palmigiano, Alessandra, editor, and Sadrzadeh, Mehrnoosh, editor

Published

2023

9. Binary Quantum Random Number Generator Based on Value Indefinite Observables.

Author

Calude, Cristian S. and Svozil, Karl

Subjects

*QUANTUM mechanics, *RANDOM numbers, *KOCHEN-Specker theorem, *HILBERT space, *HYPERGRAPHS

Abstract

All quantum random number generators based on measuring value indefinite observables are at least threedimensional because the Kochen-Specker Theorem and the Located Kochen-Specker Theorem are false in dimension two. In this article, we construct a quantum random number generator based on measuring a threedimensional value indefinite observable that generates binary quantum random outputs with the same randomness qualities as the ternary ones: its outputs are maximally unpredictable. [ABSTRACT FROM AUTHOR]

Published

2023

10. Bypassing the Kochen–Specker Theorem: An Explicit Non-Contextual Statistical Model for the Qutrit.

Author

Oaknin, David H.

Subjects

*STATISTICAL models, *GAUGE invariance, *BELL'S theorem, *QUANTUM mechanics, *STATISTICAL physics, *NOETHER'S theorem

Abstract

We describe an explicitly non-contextual statistical model of hidden variables for the qutrit, which fully reproduces the predictions of quantum mechanics, and thus, bypasses the constraints imposed by the Kochen–Specker theorem and its subsequent reformulations. We notice that these renowned theorems crucially rely on the implicitly assumed existence of an absolute frame of reference with respect to which physically indistinguishable tests related by spurious gauge transformations can supposedly be assigned well-defined distinct identities. We observe that the existence of such an absolute frame of reference is not required by fundamental physical principles, and hence, assuming it is an unnecessarily restrictive demand. [ABSTRACT FROM AUTHOR]

Published

2023

11. Lógica cuántica, Nmatrices y adecuación, II.

Author

Pablo Jorge, Juan and Holik, Federico

Subjects

*QUANTUM logic, *BOOLEAN algebra, *KOCHEN-Specker theorem, *QUANTUM mechanics, *SEMANTICS, *TRUTH tables (Mathematical logic), *HOMOMORPHISMS

Abstract

By elaborating on the results presented in Lógica cuántica, Nmatrices y adecuación I, here we discuss the notions of adequacy and truth functionality in quantum logic from the point of view of a non-deterministic semantics based on Nmatrices. We present a proof of the impossibility of providing a functional semantics for the quantum lattice. An advantage of our proof is that it is independent of the number of truth values involved, generalizing previous works. Due to the impossibility of defining adequate interpreting sets for the conjunction and disjunction (as was shown in our previous work), it follows that a homomorphism between the lattice of quantum projections and a Boolean algebra of n-elements cannot exist. [ABSTRACT FROM AUTHOR]

Published

2023

12. Lógica cuántica, Nmatrices y adecuación, I.

Author

Jorge, Juan Pablo and Holik, Federico

Subjects

*SEMANTICS, *QUANTUM logic, *LOGIC, *MATHEMATICAL physics, *QUANTUM theory, *STRUCTURAL analysis (Engineering), *LATTICE theory

Abstract

In this paper we discuss the notions of adequacy and truth functionality in quantum logic from the point of view of a non-deterministic semantics. We give a characterization of the degree of non-functionality which is compatible with the propositional structure of quantum theory, showing that having truth-functional connectives, together with some assumptions regarding the relation of logical consequence, commits us to the adequacy of the interpretation sets of these connectives. An advantage of our proof is that it is independent of the number of truth values involved, generalizing previous works. We also show the failure of the adequacy of every Nmatrix that is a model of the non-distributive lattice of quantum propositions. [ABSTRACT FROM AUTHOR]

Published

2022

13. Extending Kolmogorov's Axioms for a Generalized Probability Theory on Collections of Contexts.

Author

Svozil, Karl

Subjects

*PROBABILITY theory, *AXIOMS, *STOCHASTIC matrices, *CONDITIONAL probability, *COLLECTIONS

Abstract

Kolmogorov's axioms of probability theory are extended to conditional probabilities among distinct (and sometimes intertwining) contexts. Formally, this amounts to row stochastic matrices whose entries characterize the conditional probability to find some observable (postselection) in one context, given an observable (preselection) in another context. As the respective probabilities need not (but, depending on the physical/model realization, can) be of the Born rule type, this generalizes approaches to quantum probabilities by Aufféves and Grangier, which in turn are inspired by Gleason's theorem. [ABSTRACT FROM AUTHOR]

Published

2022

14. Varieties of contextuality based on probability and structural nonembeddability.

Author

Svozil, Karl

Subjects

*QUANTUM entanglement

Published

2022

15. A Kochen–Specker theorem for integer matrices and noncommutative spectrum functors

Author

Ben-Zvi, Michael, Ma, Alexander, Reyes, Manuel, and Chirvasitu, Alexandru

Subjects

Kochen-Specker Theorem, Contextuality, Idempotent integer matrix, Prime spectrum, Noncommutative spectrum, Prime partial ideal, Partial Boolean algebra, math-ph, math.AG, math.MP, math.RA, quant-ph, Primary: 81P13, 16B50, Secondary: 03G05, 15B33, 15B36, Pure Mathematics, General Mathematics

Abstract

We investigate the possibility of constructing Kochen–Specker uncolorable sets of idempotent matrices whose entries lie in various rings, including the rational numbers, the integers, and finite fields. Most notably, we show that there is no Kochen–Specker coloring of the n×n idempotent integer matrices for n≥3, thereby illustrating that Kochen–Specker contextuality is an inherent feature of pure matrix algebra. We apply this to generalize recent no-go results on noncommutative spectrum functors, showing that any contravariant functor from rings to sets (respectively, topological spaces or locales) that restricts to the Zariski prime spectrum functor for commutative rings must assign the empty set (respectively, empty space or locale) to the matrix ring Mn(R) for any integer n≥3 and any ring R. An appendix by Alexandru Chirvasitu shows that Kochen–Specker colorings of idempotents in partial subalgebras of M3(F) for a perfect field F can be extended to partial algebra morphisms into the algebraic closure of F.

Published

2017

16. Two concepts of noncontextuality in quantum mechanics.

Author

Hofer-Szabó, Gábor

Subjects

*QUANTUM mechanics, *DISTRIBUTION (Probability theory), *SELFADJOINT operators, *QUANTUM states

Abstract

There are two different and logically independent concepts of noncontextuality in quantum mechanics. First, an ontological (hidden variable) model for quantum mechanics is called noncontextual if every ontic (hidden) state determines the probability of the outcomes of every measurement independently of what other measurements are simultaneously performed. Second, an ontological model is noncontextual if any two measurements which are represented by the same self-adjoint operator or, equivalently, which have the same probability distribution of outcomes in every quantum state also have the same probability distribution of outcomes in every ontic state. I will call the first concept simultaneous noncontextuality, the second measurement noncontextuality. In the paper I will overview and critically analyze some of the most significant accounts of contextuality in the literature and subsume them under these two categories. [ABSTRACT FROM AUTHOR]

Published

2022

17. Generalized Greenberger–Horne–Zeilinger Arguments from Quantum Logical Analysis.

Author

Svozil, Karl

Abstract

The Greenberger–Horne–Zeilinger (GHZ) argument against noncontextual local hidden variables is recast in quantum logical terms of fundamental propositions, states and probabilities. Unlike Kochen–Specker- and Hardy-like configurations, this operator based argument proceeds within four nonintertwining contexts. The nonclassical performance of the GHZ argument is due to the choice or filtering of observables with respect to a particular state. We study the varieties of GHZ games one could play in these four contexts, depending on the chosen state of the GHZ basis. [ABSTRACT FROM AUTHOR]

Published

2022

18. Bypassing the Kochen–Specker Theorem: An Explicit Non-Contextual Statistical Model for the Qutrit

Author

David H. Oaknin

Subjects

quantum mechanics, Kochen–Specker theorem, Bell’s theorem, hidden variables, non-contextual models, counterfactual measurements, Mathematics, QA1-939

Abstract

We describe an explicitly non-contextual statistical model of hidden variables for the qutrit, which fully reproduces the predictions of quantum mechanics, and thus, bypasses the constraints imposed by the Kochen–Specker theorem and its subsequent reformulations. We notice that these renowned theorems crucially rely on the implicitly assumed existence of an absolute frame of reference with respect to which physically indistinguishable tests related by spurious gauge transformations can supposedly be assigned well-defined distinct identities. We observe that the existence of such an absolute frame of reference is not required by fundamental physical principles, and hence, assuming it is an unnecessarily restrictive demand.

Published

2023

19. Simultaneous all-versus-nothing refutation of local realism and noncontextuality by a single system.

Author

Zhou, Min-Gang, Yin, Hua-Lei, and Chen, Zeng-Bing

Abstract

The quantum realms of nonlocality and contextuality are delineated by Bell's theorem and the Kochen–Specker theorem, respectively, embodying phenomena that surpass the explanatory capacities of classical theories. These realms hold transformative potential for the fields of information and computing technology. In this study, we unveil a "all-versus-nothing" proof that concurrently illustrates the veracity of these two seminal theorems, fostering a more nuanced comprehension of the intricate relationship intertwining quantum nonlocality and contextuality. Leveraging the capabilities of three singlet pairs and a Greenberger–Horne–Zeilinger state analyzer, our proof not only substantiates the conflict between quantum mechanics and hidden-variable theories from another perspective, but can also be readily verifiable utilizing the existing linear optics technology. [ABSTRACT FROM AUTHOR]

Published

2024

20. Extending Kolmogorov’s Axioms for a Generalized Probability Theory on Collections of Contexts

Author

Karl Svozil

Subjects

value indefiniteness, Kolmogorov axioms of probability theory, Pitowsky’s logical indeterminacy principle, quantum mechanics, Gleason theorem, Kochen–Specker theorem, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

Kolmogorov’s axioms of probability theory are extended to conditional probabilities among distinct (and sometimes intertwining) contexts. Formally, this amounts to row stochastic matrices whose entries characterize the conditional probability to find some observable (postselection) in one context, given an observable (preselection) in another context. As the respective probabilities need not (but, depending on the physical/model realization, can) be of the Born rule type, this generalizes approaches to quantum probabilities by Aufféves and Grangier, which in turn are inspired by Gleason’s theorem.

Published

2022

21. Epilogue III.C. Deeper Levels’ Quantum Background Independence and Problem of Time

Author

Anderson, Edward, van Beijeren, Henk, Series editor, Blanchard, Philippe, Series editor, Busch, Paul, Series editor, Coecke, Bob, Series editor, Dieks, Dennis, Series editor, Dittrich, Bianca, Series editor, Dürr, Detlef, Series editor, Durrer, Ruth, Series editor, Frigg, Roman, Series editor, Fuchs, Christopher, Series editor, Ghirardi, Giancarlo, Series editor, Giulini, Domenico J. W., Series editor, Jaeger, Gregg, Series editor, Kiefer, Claus, Series editor, Landsman, Nicolaas P., Series editor, Maes, Christian, Series editor, Murao, Mio, Series editor, Nicolai, Hermann, Series editor, Petkov, Vesselin, Series editor, Ruetsche, Laura, Series editor, Sakellariadou, Mairi, Series editor, van der Merwe, Alwyn, Series editor, Verch, Rainer, Series editor, Werner, Reinhard F., Series editor, Wüthrich, Christian, Series editor, Young, Lai-Sang, Series editor, and Anderson, Edward

Published

2017

22. Geometrical Quantization. i. Kinematical Quantization

Author

Anderson, Edward, van Beijeren, Henk, Series editor, Blanchard, Philippe, Series editor, Busch, Paul, Series editor, Coecke, Bob, Series editor, Dieks, Dennis, Series editor, Dittrich, Bianca, Series editor, Dürr, Detlef, Series editor, Durrer, Ruth, Series editor, Frigg, Roman, Series editor, Fuchs, Christopher, Series editor, Ghirardi, Giancarlo, Series editor, Giulini, Domenico J. W., Series editor, Jaeger, Gregg, Series editor, Kiefer, Claus, Series editor, Landsman, Nicolaas P., Series editor, Maes, Christian, Series editor, Murao, Mio, Series editor, Nicolai, Hermann, Series editor, Petkov, Vesselin, Series editor, Ruetsche, Laura, Series editor, Sakellariadou, Mairi, Series editor, van der Merwe, Alwyn, Series editor, Verch, Rainer, Series editor, Werner, Reinhard F., Series editor, Wüthrich, Christian, Series editor, Young, Lai-Sang, Series editor, and Anderson, Edward

Published

2017

23. Quantum Violation of the Suppes-Zanotti Inequalities and "Contextuality".

Author

Svozil, Karl

Subjects

*EXPECTATION (Psychology), *MOTIVATION (Psychology)

Abstract

The Suppes-Zanotti inequalities involving the joint expectations of just three binary quantum observables are (re-)derived by the hull computation of the respective correlation polytope. A min-max calculation reveals its maximal quantum violations correspond to a generalized Tsirelson bound. Notions of "contextuality" motivated by such violations are critically reviewed. [ABSTRACT FROM AUTHOR]

Published

2021

24. Must hidden variables theories be contextual? Kochen & Specker meet von Neumann and Gleason.

Author

Acuña, Pablo

Abstract

It is a widespread belief that the Kochen-Specker theorem imposes a contextuality constraint on the ontology of beables in quantum hidden variables theories. On the other hand, after Bell's influential critique, the importance of von Neumann's wrongly called 'impossibility proof' has been severely questioned. However, Max Jammer, Jeffrey Bub and Dennis Dieks have proposed insightful reassessments of von Neumann's theorem: what it really shows is that hidden variables theories cannot represent their beables by means of Hermitian operators in Hilbert space. Hereby I show that i) the very same constraint can be derived from Gleason's theorem, and that ii) if we consider the import of von Neumann's and Gleason's theorems, the relevance of the Kochen-Specker theorem for hidden variables theories gets substantially weakened: it does not force them to be contextual in any interesting sense of the term. [ABSTRACT FROM AUTHOR]

Published

2021

25. Three noncontextual hidden variable models for the Peres-Mermin square.

Author

Hofer-Szabó, Gábor

Abstract

I will argue that the Peres-Mermin square does not necessarily rule out a value-definite (deterministic) noncontextual hidden variable model if the operators are not given a physical interpretation satisfying the following two requirements: (i) each operator is uniquely realized by a single physical measurement; (ii) commuting operators are realized by simultaneous measurements. To underpin this claim, I will construct three hidden variable models for three different physical realizations of the Peres-Mermin square: one violating (i), another violating (ii), and a third one violating both (i) and (ii). [ABSTRACT FROM AUTHOR]

Published

2021

26. The Logos Categorical Approach to Quantum Mechanics: I. Kochen-Specker Contextuality and Global Intensive Valuations.

Author

de Ronde, C. and Massri, C.

Subjects

*QUANTUM mechanics, *VALUATION, *COMMON sense

Abstract

In this paper we present a new categorical approach which attempts to provide an original understanding of QM. Our logos categorical approach attempts to consider the main features of the quantum formalism as the standpoint to develop a conceptual representation that explains what the theory is really talking about —rather than as problems that need to be bypassed in order to allow a restoration of a classical "common sense" understanding of what there is. In particular, we discuss a solution to Kochen-Specker contextuality through the generalization of the meaning of global valuation. This idea has been already addressed by the so called topos approach to QM —originally proposed by Isham, Butterfiled and Döring— in terms of sieve-valued valuations. The logos approach to QM presents a different solution in terms of the notion of intensive valuation. This new solution stresses an ontological (rather than epistemic) reading of the quantum formalism and the need to restore an objective (rather than classical) conceptual representation and understanding of quantum physical reality. [ABSTRACT FROM AUTHOR]

Published

2021

27. Large violations in Kochen Specker contextuality and their applications

Author

Ravishankar Ramanathan, Yuan Liu, and Paweł Horodecki

Subjects

quantum contextuality, quantum non-locality, Kochen–Specker theorem, Science, Physics, QC1-999

Abstract

It is of interest to study how contextual quantum mechanics is, in terms of the violation of Kochen Specker state-independent and state-dependent non-contextuality inequalities. We present state-independent non-contextuality inequalities with large violations, in particular, we exploit a connection between Kochen–Specker proofs and pseudo-telepathy games to show KS proofs in Hilbert spaces of dimension d ⩾ 2 ^17 with the ratio of quantum value to classical bias being $O(\sqrt{d}/\mathrm{log}\,d)$ . We study the properties of this KS set and show applications of the large violation. It has been recently shown that Kochen–Specker proofs always consist of substructures of state-dependent contextuality proofs called 01-gadgets. We show a one-to-one connection between 01-gadgets in ${\mathbb{C}}^{d}$ and Hardy paradoxes for the maximally entangled state in ${\mathbb{C}}^{d}\otimes {\mathbb{C}}^{d}$ . We use this connection to construct large violation 01-gadgets between arbitrary vectors in ${\mathbb{C}}^{d}$ , as well as novel Hardy paradoxes for the maximally entangled state in ${\mathbb{C}}^{d}\otimes {\mathbb{C}}^{d}$ , and give applications of these constructions. As a technical result, we show that the minimum dimension of the faithful orthogonal representation of a graph in ${\mathbb{R}}^{d}$ is not a graph monotone, a result that may be of independent interest.

Published

2022

28. Faithful orthogonal representations of graphs from partition logics.

Author

Svozil, Karl

Subjects

*LOGIC, *ORTHOGONAL functions, *REPRESENTATIONS of graphs, *PROBABILITY theory, *QUANTUM mechanics

Abstract

Partition logics often allow a dual probabilistic interpretation: a classical one for which probabilities lie on the convex hull of the dispersion-free weights and another one, suggested independently from the quantum Born rule, in which probabilities are formed by the (absolute) square of the inner product of state vectors with the faithful orthogonal representations of the respective graph. Two immediate consequences are the demonstration that the logico-empirical structure of observables does not determine the type of probabilities alone and that complementarity does not imply contextuality. [ABSTRACT FROM AUTHOR]

Published

2020

29. RELATIONAL REALISM AND THE ONTOGENETIC UNIVERSE: subject, object, and ontological process in quantum mechanics.

Author

Epperson, Michael

Subjects

*QUANTUM mechanics, *REALISM, *ONTOGENY, *KOCHEN-Specker theorem, *SPATIOTEMPORAL processes

Abstract

Amid the wide variety of interpretations of quantum mechanics, the notion of a fully coherent ontological interpretation has seen a promising evolution over the last few decades. Despite this progress, however, the old dualistic categorical constraints of subjectivity and objectivity, correlate with the metrically restricted definition of local and global, have remained largely in place – a reflection of the broader, persistent inheritance of these comfortable strictures throughout the evolution of modern science. If one traces this inheritance back to its ancient roots in Plato and Aristotle, it is clear that the coherence, scientific utility, and historical durability of the various natural philosophies that followed have been directly proportional to their commitment, tacit or explicit, to object-oriented realism. As Simondon might put it, it is a commitment to the primacy of individuated substance over the process of individuation. For Whitehead, it is the misplaced assimilation of becoming to being, of potentiality to actuality. Quantum mechanics has challenged this commitment with a combined breadth and depth of force that far exceeds any other theory in the history of science. The theory's objectively demonstrable empirical application is manifest only by way of a fundamentally subjective, context-dependent mechanism of measurement. More compelling still, actual system states are always actualizations of locally contextualized yet globally conditioned potential system states, such that "globally objective" reality is no longer merely the object of local measurement, but also its product. Thus, any coherent, ontological interpretation of quantum theory must include a conceptual framework by which objectivity and subjectivity, actuality and potentiality, global and local, being and becoming, individuated fact and process of individuation, are no longer understood as merely epistemic, mutually exclusive category pairs descriptive of an already extant, closed reality – but rather as mutually implicative ontological categories explicative of an ontogenetic, open reality-in-process. [ABSTRACT FROM AUTHOR]

Published

2020

30. Vector generation of contextual sets.

Author

Mogilevtsev, D., Pavičić, Mladen, and Megill, Norman D.

Subjects

*QUANTUM computing, *VECTOR fields, *KOCHEN-Specker theorem, *HYPERGRAPHS, *QUANTUM communication

Abstract

As quantum contextuality proves to be a necessary resource for universal quantum computation, we present a general method for vector generation of Kochen-Specker (KS) contextual sets in the form of hypergraphs. The method supersedes all three previous methods: (i) fortuitous discoveries of smallest KS sets, (ii) exhaustive upward hypergraph-generation of sets, and (iii) random downward generation of sets from fortuitously obtained big master sets. In contrast to previous works, we can generate master sets which contain all possible KS sets starting with nothing but a few simple vector components. From them we can readily generate all KS sets obtained in the last half a century and any specified new KS sets. Herewith we can generate sufficiently large sets as well as sets with definite required features and structures to enable varieties of different implementations in quantum computation and communication. [ABSTRACT FROM AUTHOR]

Published

2019

31. Quantum Randomness is Chimeric

Author

Karl Svozil

Subjects

quantum randomness, Gleason theorem, Kochen–Specker theorem, Born rule, object construction, emergent space-time, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

If quantum mechanics is taken for granted, the randomness derived from it may be vacuous or even delusional, yet sufficient for many practical purposes. “Random” quantum events are intimately related to the emergence of both space-time as well as the identification of physical properties through which so-called objects are aggregated. We also present a brief review of the metaphysics of indeterminism.

Published

2021

32. Category-Theoretic Interpretative Framework of the Complementarity Principle in Quantum Mechanics.

Author

Zafiris, Elias and Karakostas, Vassilios

Subjects

*QUANTUM mechanics, *CONGRUENCE lattices, *BOOLEAN algebra, *KNOWLEDGE transfer, *LINEAR complementarity problem, *CATEGORIES (Mathematics), *QUANTUM theory, *ALGEBRA

Abstract

This study aims to provide an analysis of the complementarity principle in quantum theory through the establishment of partial structural congruence relations between the quantum and Boolean kinds of event structure. Specifically, on the basis of the existence of a categorical adjunction between the category of quantum event algebras and the category of presheaves of variable Boolean event algebras, we establish a twofold complementarity scheme consisting of a generalized/global and a restricted/local conceptual dimension, where the latter conception is subordinate to and constrained by the former. In this respect, complementarity is not only understood as a relation between mutually exclusive experimental arrangements or contexts of comeasurable observables, as envisaged by the original conception, but it is primarily comprehended as a reciprocal relation concerning information transfer between two hierarchically different structural kinds of event structure that can be brought into partial congruence by means of the established adjunction. It is further argued that the proposed category-theoretic framework of complementarity naturally advances a contextual realist conceptual stance towards our deeper understanding of the microphysical nature of reality. [ABSTRACT FROM AUTHOR]

Published

2019

33. The problem of quantum correlations and the totalitarian principle.

Author

Cabello, Adán

Subjects

*QUANTUM correlations, *BELL'S theorem, *QUANTUM theory

Abstract

The totalitarian principle establishes that 'anything not forbidden is compulsory'. The problem of quantum correlations is explaining what selects the set of quantum correlations for a Bell and Kochen- Specker (KS) contextuality scenario. Here, we show that two assumptions and a version of the totalitarian principle lead to the quantum correlations. The assumptions are that there is a non-empty set of correlations for any KS contextuality scenario and a statistically independent realization of any two KS experiments. The version of the totalitarian principle says that any correlation not forbidden by these assumptions can be produced. This paper contains a short version of the proof (presented elsewhere) and explores some implications of the result. [ABSTRACT FROM AUTHOR]

Published

2019

34. Realistic Quantum Theory: Solving the Interpretation Problem

Author

Rudolf Lierenfeldt

Subjects

Bell's Inequality, General Probability Theory, Interpretation Problem, Mathematical Quantum Theory, Logic of Physics, Ontological Realism, Kochen-Specker Theorem

Abstract

In 2018, a new and systematic solution to the interpretation problem of quantum theory was published (in German language) under the title of "Realistische Quantentheorie". In the present document, a postprint of this publication can be found, together with an English summary. The solution considered here comprises a canonical modelling of quantum reality, a precise formulation of the deterministic and the probabilistic laws, proof of the logical consistency of these laws (thus solving the well-known no-go-problems), unequivocal definition of the quantum state and clarification of its ontological status, solution to the problem of measurement and clarification of the role played by the reduction of the quantum state. Ambiguities of the Copenhagen interpretation are avoided as well as speculative concepts of many worlds theories or the attempt to adhere to outdated particle concepts (Bohmian mechanics). Also avoided are pseudo-philosophical speculations about subjectivism or phenomenalism as expressed in the assertion that the world is "nothing but information". For a more detailed description of this theory see the abstract as well as the summary in the PDF document.

Published

2023

35. A Knot Theoretic Extension of the Bloch Sphere Representation for Qubits in Hilbert Space and Its Application to Contextuality and Many-Worlds Theories

Author

Stefan Heusler, Paul Schlummer, and Malte S. Ubben

Subjects

knot theory, quantum physics, Kochen-Specker Theorem, many-worlds interpretation, contextuality, Mathematics, QA1-939

Abstract

We argue that the usual Bloch sphere is insufficient in various aspects for the representation of qubits in quantum information theory. For example, spin flip operations with the quaternions I J K = e 2 π i 2 = − 1 and J I K = + 1 cannot be distinguished on the Bloch sphere. We show that a simple knot theoretic extension of the Bloch sphere representation is sufficient to track all unitary operations for single qubits. Next, we extend the Bloch sphere representation to entangled states using knot theory. As applications, we first discuss contextuality in quantum physics—in particular the Kochen-Specker theorem. Finally, we discuss some arguments against many-worlds theories within our knot theoretic model of entanglement. The key ingredients of our approach are symmetries and geometric properties of the unitary group.

Published

2020

36. What Is So Special about Quantum Clicks?

Author

Karl Svozil

Subjects

correlation polytope, Kochen-Specker theorem, bell inequality, klyachko inequality, pitowsky principle of indeterminacy, Science, Astrophysics, QB460-466, Physics, QC1-999

Abstract

This is an elaboration of the “extra” advantage of the performance of quantized physical systems over classical ones, both in terms of single outcomes as well as probabilistic predictions. From a formal point of view, it is based on entities related to (dual) vectors in (dual) Hilbert spaces, as compared to the Boolean algebra of subsets of a set and the additive measures they support.

Published

2020

37. O nekim višeznačnim univerbima u bosanskom jeziku / About Some Ambiguous Univerbs in the Bosnian Language

Author

Elma Durmišević-Cernica

Subjects

Syntagmatic analysis, Bosnian, media_common.quotation_subject, Context (language use), Ambiguity, Word formation, language.human_language, Linguistics, Univerbation, Kochen–Specker theorem, language, Sociology, Meaning (existential), media_common

Abstract

The paper deals with univerbs – monolexemic units that originated from a two-membered congruent attribute syntagm. They are characterized by stylistic marking, expressiveness, economy, but also ambiguity and contextuality. Unlike univerbs, the two-part syntagm is always precise, unambiguous, and semantically clearly defined. Particular attention will be paid to the univerbs with multiple meanings – they are polysemous, hence contextually conditioned. The context is tremendously important in the analysis of the meaning of individual univerbs, although in some univerbs (zabavnjak) the context could not help in determining the precise meaning (zabavna muzika : zabavni pjevač). In that case, the linguistic sense of the speaker will be crucial in determining the meaning.

Published

2021

38. No-Go Theorems and the Foundations of Quantum Physics.

Author

Oldofredi, Andrea

Subjects

*QUANTUM theory, *KOCHEN-Specker theorem, *STRATEGIC planning, *QUANTUM mechanics, *MATHEMATICAL models

Abstract

In the history of quantum physics several no-go theorems have been proved, and many of them have played a central role in the development of the theory, such as Bell’s or the Kochen-Specker theorem. A recent paper by F. Laudisa has raised reasonable doubts concerning the strategy followed in proving some of these results, since they rely on the standard framework of quantum mechanics, a theory that presents several ontological problems. The aim of this paper is twofold: on the one hand, I intend to reinforce Laudisa’s methodological point by critically discussing Malament’s theorem in the context of the philosophical foundation of quantum field theory; secondly, I rehabilitate Gisin’s theorem showing that Laudisa’s concerns do not apply to it. [ABSTRACT FROM AUTHOR]

Published

2018

39. Effect algebras, presheaves, non-locality and contextuality.

Author

Staton, Sam and Uijlen, Sander

Subjects

*QUANTUM theory, *BANACH algebras, *PRESHEAVES, *SHEAF theory, *KOCHEN-Specker theorem

Abstract

Non-locality and contextuality are among the most counterintuitive aspects of quantum theory. They are difficult to study using classical logic and probability theory. In this paper we start with an effect algebraic approach to the study of non-locality and contextuality. We will see how different slices over the category of set valued functors on the natural numbers induce different settings in which non-locality and contextuality can be studied. This includes the Bell, Hardy and Kochen–Specker-type paradoxes. We link this to earlier sheaf theoretic approaches by defining a fully faithful embedding of the category of effect algebras in this presheaf category over the natural numbers. [ABSTRACT FROM AUTHOR]

Published

2018

40. Extracontextuality and extravalence in quantum mechanics.

Author

Auffèves, Alexia and Grangier, Philippe

Subjects

*QUANTUM mechanics, *GLEASON'S theorem (Quantum theory)

Abstract

We develop the point of view where quantum mechanics results from the interplay between the quantized number of 'modalities' accessible to a quantum system, and the continuum of 'contexts' that are required to define these modalities. We point out the specific roles of 'extracontextuality' and 'extravalence' of modalities, and relate them to the Kochen-Specker and Gleason theorems. This article is part of a discussion meeting issue 'Foundations of quantum mechanics and their impact on contemporary society'. [ABSTRACT FROM AUTHOR]

Published

2018

41. How strong a logistic damping can prevent blow-up for the minimal Keller–Segel chemotaxis system?

Author

Xiang, Tian

Subjects

*CHEMOTAXIS, *LOGISTIC regression analysis, *DAMPING (Mechanics), *PARABOLIC differential equations, *KOCHEN-Specker theorem

Abstract

We study nonnegative solutions of parabolic–parabolic Keller–Segel minimal-chemotaxis-growth systems with prototype given by { u t = ∇ ⋅ ( d 1 ∇ u − χ u ∇ v ) + κ u − μ u 2 , x ∈ Ω , t > 0 , v t = d 2 Δ v − β v + α u , x ∈ Ω , t > 0 in a smooth bounded smooth but not necessarily convex domain Ω ⊂ R n ( n ≥ 3 ) with nonnegative initial data u 0 , v 0 and homogeneous Neumann boundary data, where d 1 , d 2 , α , β , μ > 0 , χ , κ ∈ R . We provide quantitative and qualitative descriptions of the competition between logistic damping and other ingredients, especially, chemotactic aggregation to guarantee boundedness and convergence. Specifically, we first obtain an explicit formula μ 0 = μ 0 ( n , d 1 , d 2 , α , χ ) for the logistic damping rate μ such that the system has no blow-ups whenever μ > μ 0 . In particular, for Ω ⊂ R 3 , we get a clean formula for μ 0 : μ 0 ( 3 , d 1 , d 2 , α , χ ) = { 3 4 d 1 α χ , if d 1 = d 2 , χ > 0 and Ω is convex , 3 10 − 2 ( 1 d 1 + 2 d 2 ) α | χ | , otherwise . This offers a quantized effect of the logistic source on the prevention of blow-ups. Our result extends the fundamental boundedness principle by Winkler [42] with d 1 = 1 , d 2 = α = β : = 1 / τ , Ω being convex and sufficiently large values of μ beyond a certain number not explicitly known (except the simple case τ = 1 and χ > 0 ) and quantizes the qualitative result of Yang et al. [52] . Besides, in non-convex domains, since μ 0 ( 3 , 1 , 1 , 1 , χ ) = ( 7.743416 ⋯ ) χ , the recent boundedness result, μ > 20 χ , of Mu and Lin [25] is greatly improved. Then we derive another explicit formula: μ 1 = μ 1 ( d 1 , d 2 , α , β , κ , χ ) = α | χ | 4 κ + d 1 d 2 β for the logistic damping rate so that convergence of bounded solutions is ensured and the respective convergence rates are explicitly calculated out whenever μ > μ 1 . Recent convergence results of He and Zheng [9] are therefore complemented and refined. [ABSTRACT FROM AUTHOR]

Published

2018

42. A More Efficient Contextuality Distillation Protocol.

Author

Meng, Hui-Xian, Cao, Huai-Xin, Wang, Wen-Hua, Fan, Ya-Jing, and Chen, Liang

Subjects

*DISTILLATION, *CONTEXTUAL analysis, *QUANTUM dots, *QUANTUM theory, *KOCHEN-Specker theorem, *MATHEMATICAL models

Abstract

Based on the fact that both nonlocality and contextuality are resource theories, it is natural to ask how to amplify them more efficiently. In this paper, we present a contextuality distillation protocol which produces an n-cycle box B ∗ B′ from two given n-cycle boxes B and B′. It works efficiently for a class of contextual n-cycle (n ≥ 4) boxes which we termed as “the generalized correlated contextual n-cycle boxes”. For any two generalized correlated contextual n-cycle boxes B and B′, B ∗ B′ is more contextual than both B and B′. Moreover, they can be distilled toward to the maximally contextual box CHn as the times of iteration goes to infinity. Among the known protocols, our protocol has the strongest approximate ability and is optimal in terms of its distillation rate. What is worth noting is that our protocol can witness a larger set of nonlocal boxes that make communication complexity trivial than the protocol in Brunner and Skrzypczyk (Phys. Rev. Lett. 102, 160403 2009), this might be helpful for exploring the problem that why quantum nonlocality is limited. [ABSTRACT FROM AUTHOR]

Published

2018

43. LINGUOPHILOSOPHICAL BASIS OF CONTEXTUALITY IN THE STUDY OF OCCASIONAL SPEECH UNITS (ON THE MATERIAL OF THE ENGLISH LANGUAGE)

Author

I S Kazymir and S V Poliova

Subjects

Basis (linear algebra), Organic Chemistry, English language, Psychology, Biochemistry, Linguistics, Kochen–Specker theorem

Abstract

Language is commonly believed to be one of the dominant components in the philosophical ideology. The given article is aimed at revealing the linguistic and philosophical foundations of “contextuality” and “context” under the study of occasional speech units on the material of the English language from the standpoint of interdisciplinary holism. Interdisciplinarity is caused by the lack of a unified methodology for the study of contextual synonyms as global phenomena in newspaper and artistic discourses in the contemporary English.Lexical units on the basis of modern newspaper and artistic discourses are studied. “Contextuality” with a reference to modern explorations of linguistic philosophy is explicated. The study of contextual synonyms characterizes the role of linguistic and philosophical knowledge and outlines the prospects for further research in terms of linguosynergetics. The methodological basis contains a combination of general (analysis, synthesis, induction, deduction) and linguistic (componential, logical) methods. The epistemological interpretation of “contextualism” explains the fact that the context is based on pure experience and a priori structures. From the standpoint of anthropology, “contextuality” is composed of three components, which include a cognitive, behavioral and emotional components.There has been made an attempt to study contextual synonyms within the framework of Austin’s language pragmatism. It has been determined that the main prerequisites for contextuality are ready-made scripts and templates of a certain language community. The proposed article confines that the contextual synonyms are formed by the author’s intentions in the artistic style, while the situational synonyms on the material of the English periodicals are formed on the basis of collective beliefs or background knowledge. The main hypotheses of the British and American schools to understanding the concept of “context” are highlighted. Both schools singled the “cultural component” out. It has been substantiated that contextual synonyms activate the pragmatic effect in terms of a language game. The analyzed theoretical sources indicate that the rejection of structural logocentrism in favor of dynamism and linguistic ambiguity becomes a prerequisite for the study of speech phenomena in the realm of linguosynergetics.Key words: contextuality, context, cultural component, language game, pragmatism. Заведено вважати, що мова є одним із домінантних компонентів у філософській ідеології. Реферована стаття покликана розкрити лінгвофілософські підвалини поняття «контекстуальність» і «контекст» у процесі дослідження оказіональних мовленнєвих одиниць на матеріалі англійської мови в умовах інтер-дисциплінарного холізму. Міждисциплінарність викликається відсутністю уніфікованої методики до дослідження контекстуальних синонімів як глобальних феноменів на матеріалі англійської мови. У розвідці досліджуються лексичні одиниці на матеріалі сучасного газетного й художнього дискурсів. Експлікується термін «контекстуальність» з опертям на сучасні розвідки лінгвофілософії. Під час вивчення контекстуальних синонімів характеризується роль лінгвофілософського знання та окреслюються перспективи подальшого дослідження в розрізі лінгвосинергетики. Методологічне підґрунтя містить поєднання загальних (аналіз, синтез, індукція, дедукції) та лінгвістичних (компонентний, логічний) методів. Епіс-темологічне трактування «контекстуалізм» зводиться до того, що контекст ґрунтується на чистому досвіді й апріорних структурах. З позиції антропології «контекстуальності» сприяють когнітивний, поведінковий (біхевіористичний) та емоційний компоненти. У межах Остінського мовного прагматизму про-понується вивчення мовленнєвих феноменів – контекстуальних синонімів. Визначено, що основними пере-думовами контекстуальності є готові сценарії та шаблони певної мовної спільноти. У запропонованій статті з’ясовано, що контекстуальні синоніми, утворені авторськими інтенціями, притаманні радше художньому стилю, в той час, як ситуативні синоніми на матеріалі англомовної періодики утворюються на колективних уявленнях чи фонових лінгвокультурних знаннях. Викладено основні гіпотези британської та американської школи щодо розуміння поняття «контекст». Обидві школи орієнтувались на «культурний компонент». Обґрунтовано той факт, що контекстуальні синоніми є активізаторами прагматичного ефекту у вигляді мовної гри. Проаналізовані теоретичні джерела свідчать про те, що відмова від структурного логоцентризму на користь динамічності й мовної неоднозначності стає передумовою вивчення мовленнєвих феноменів у руслі лінгвосинергетики.Ключові слова: контекстуальність, контекст, культурний компонент, прагматизм, мовна гра.

Published

2021

44. Kochen-Specker contextuality

Author

Universidad de Sevilla. Departamento de Física Aplicada II, Universidad de Sevilla. FQM239: Fundamentos de Mecánica Cuántica, Budroni, Costantino, Cabello Quintero, Adán, Gühne, Otfried, Kleinmann, Matthias, Larsson, Jan-Åke, Universidad de Sevilla. Departamento de Física Aplicada II, Universidad de Sevilla. FQM239: Fundamentos de Mecánica Cuántica, Budroni, Costantino, Cabello Quintero, Adán, Gühne, Otfried, Kleinmann, Matthias, and Larsson, Jan-Åke

Abstract

A central result in the foundations of quantum mechanics is the Kochen-Specker theorem. In short, it states that quantum mechanics is in conflict with classical models in which the result of a measurement does not depend on which other compatible measurements are jointly performed. Here compatible measurements are those that can be implemented simultaneously or, more generally, those that are jointly measurable. This conflict is generically called quantum contextuality. In this review, an introduction to this subject and its current status is presented. Several proofs of the Kochen-Specker theorem and different notions of contextuality are reviewed. How to experimentally test some of these notions is explained, and connections between contextuality and nonlocality or graph theory are discussed. Finally, some applications of contextuality in quantum information processing are reviewed.

Published

2022

45. Provenienzprinzip und archivisches Denken

Author

Philipp Messner

Subjects

History, Archival science, Literature and Literary Theory, Field (Bourdieu), Philosophy, Epistemology, Kochen–Specker theorem

Abstract

The following paper discusses the ‘principle of provenance’ as a fundamental concept of archival theory and practice. Whereas traditional archival practice follows an understanding of provenance as singular in origin, current discussions in the field of archival science open up this specific notion of provenance towards more complex forms of contextuality.

Published

2021

46. The CGLMP Bell inequalities

Author

Bryan J. Dalton

Subjects

Uncertainty principle, 010308 nuclear & particles physics, General Physics and Astronomy, Observable, 01 natural sciences, Kochen–Specker theorem, 010309 optics, symbols.namesake, Theoretical physics, Local hidden variable theory, Joint probability distribution, Hidden variable theory, 0103 physical sciences, symbols, General Materials Science, EPR paradox, Physical and Theoretical Chemistry, Quantum, Mathematics

Abstract

Quantum non-locality tests have been of interest since the 1960s paper by Bell on the original EPR paradox. The present paper discusses whether the CGLMP (Bell) inequalities obtained by Collins et al. are possible tests for showing that quantum theory is not underpinned by local hidden variable theory (LHVT). It is found by applying Fine’s theorem that the CGLMP approach involves a LHVT for the joint probabilities associated with the measurement of one observable from each of the two sub-systems, even though the underlying probabilities for joint measurements of all four observables involve a hidden variable theory which is not required to be local. The latter HVT probabilities involve outcomes of simultaneous measurements of pairs of observables corresponding to non-commuting quantum operators, which is allowed in classical theory. Although the CGLMP inequalities involve probabilities for measurements of one observable per sub-system and are compatible with the Heisenberg uncertainty principle, there is no unambiguous quantum measurement process linked to the probabilities in the CGLMP inequalities. Quantum measurements corresponding to the different classical measurements that give the same CGLMP probability are found to yield different CGLMP probabilities. However, violation of a CGLMP inequality based on any one of the possible quantum measurement sequences is sufficient to show that the Collins et al. LHVT does not predict the same results as quantum theory. This is found to occur for a state considered in their paper—though for observables whose physical interpretation is unclear. In spite of the problems of comparing the HVT inequalities with quantum expressions, it is concluded that in spite of the contextuality loophole, the CGLMP inequalities are indeed suitable for ruling out local hidden variable theories and also non-local ones as well. The state involved could apply to a macroscopic system, so the CGLMP Bell inequalities are important for finding cases of macroscopic violations of Bell locality. Possible experiments in double-well Bose condensates involving atoms with two hyperfine components are discussed.

Published

2021

47. Unleashing the potential of relational research: A meta-analysis of network studies in human geography

Author

Robert Panitz and Johannes Glückler

Subjects

Computer science, 05 social sciences, Geography, Planning and Development, 0211 other engineering and technologies, 0507 social and economic geography, Social network analysis (criminology), Triangulation (social science), 021107 urban & regional planning, 02 engineering and technology, Network theory, Data science, Grey relational analysis, Kochen–Specker theorem, Human geography, 050703 geography

Abstract

Social network analysis has become a popular methodology in human geography. This article develops three propositions – connectivity, contextuality, and reflexivity – for relational analysis to overcome the dualism between universalist network science on the one hand and idiosyncratic network stories on the other. Building on a detailed meta-analysis of over 300 network studies published between 1990 and 2018, we offer a sympathetic critique of the actual use of network methods in human geography. To unleash further potential of network research, we propose several research strategies for more inclusive relational analysis, including informed pre-specification, triangulation, and communicative validation.

Published

2021

48. Algebraic structures identified with bivalent and non-bivalent semantics of experimental quantum propositions

Author

Bolotin, Arkady

Published

2020

49. ON THE NOTION OF TRUTH IN QUANTUM MECHANICS: A CATEGORY-THEORETIC STANDPOINT.

Author

KARAKOSTAS, VASSILIOS and ZAFIRIS, ELIAS

Subjects

QUANTUM mechanics, KOCHEN-Specker theorem, CATEGORIES (Mathematics), TOPOI (Mathematics), SEMANTICS

Published

2016

50. Contextuality, Bioethics, and the Nature of Philosophy: Reflections on Murdoch, Diamond, Walker, and the Groningen Approach

Author

Nora Hämäläinen

Subjects

Health (social science), Philosophy, Groningen bioethics, Iris Murdoch, Bioethics, Epistemology, Kochen–Specker theorem, Gender Studies, Moral philosophy, contextual ethics, Cora Diamond, Nature, moral philosophy

Abstract

Beginning with Barry Hoffmaster’s charge that we reclaim bioethics from the moral philosopher’s top-down theorizing, I discuss two moral philosophy contexts that offer resources for the kind of complex attention Hoffmaster demands: Iris Murdoch and Cora Diamond in moral philosophy and Margaret Urban Walker, Hilde Lindeman, and Marian Verkerk’s joint take on bioethics. My aim is: 1) to dispel a simplified notion of philosophy in bioethics; 2) to unite two strands of philosophy, which converge on important issues relevant to contemporary bioethics; and 3) to explore these strands in terms of enabling, maieutic work on our ethical points of departure.

Published

2021