Results for ' Wave-particle duality'

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  1.  31
    Wave-Particle Duality and the Objectiveness of “True” and “False”.Arkady Bolotin - 2021 - Foundations of Physics 51 (4):1-27.
    The traditional analysis of the basic version of the double-slit experiment leads to the conclusion that wave-particle duality is a fundamental fact of nature. However, such a conclusion means to imply that we are not only required to have two contradictory pictures of reality but also compelled to abandon the objectiveness of the truth values, “true” and “false”. Yet, even if we could accept wave-like behavior of quantum particles as the best explanation for the build-up of (...)
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  2.  39
    WaveParticle Duality: An Information-Based Approach.R. M. Angelo & A. D. Ribeiro - 2015 - Foundations of Physics 45 (11):1407-1420.
    Recently, Bohr’s complementarity principle was assessed in setups involving delayed choices. These works argued in favor of a reformulation of the aforementioned principle so as to account for situations in which a quantum system would simultaneously behave as wave and particle. Here we defend a framework that, supported by well-known experimental results and consistent with the decoherence paradigm, allows us to interpret complementarity in terms of correlations between the system and an informer. Our proposal offers formal definition and (...)
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  3.  45
    Wave-particle duality of single-photon states.Partha Ghose & Dipankar Home - 1992 - Foundations of Physics 22 (12):1435-1447.
    We review the present status of wave-particle duality of single-photon states in the context of some recent experiments. In particular, Bohr's complementarity principle is critically reexamined. It is explained in detail how this principle is confronted in these experiments and how a contradiction with the notion of “mutual exclusiveness” of classical wave and particle pictures emerges.
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  4.  44
    Complementarity, wave-particle duality, and domains of applicability.Peter Bokulich - 2017 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 59:136-142.
  5.  91
    Paradox in Wave-Particle Duality.Shahriar S. Afshar, Eduardo Flores, Keith F. McDonald & Ernst Knoesel - 2007 - Foundations of Physics 37 (2):295-305.
    We report on the simultaneous determination of complementary wave and particle aspects of light in a double-slit type “welcher-weg” experiment beyond the limitations set by Bohr’s Principle of Complementarity. Applying classical logic, we verify the presence of sharp interference in the single photon regime, while reliably maintaining the information about the particular pinhole through which each individual photon had passed. This experiment poses interesting questions on the validity of Complementarity in cases where measurements techniques that avoid Heisenberg’s uncertainty (...)
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  6.  31
    Photon wave-particle duality and virtual electromagnetic waves.C. Meis - 1997 - Foundations of Physics 27 (6):865-873.
    The question of the relation between the amplitude of the photon vector potential and its angular frequency is analyzed. The analogy between the relativistic quantum mechanical equations for a massles particle and those governing the photon vector potential appears clearly. Finally, the virtual electromagnetic waves associated with the photon and predicted by de Broglie, Bohr, and other appear naturally as a result of the photon vector potential quantification.
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  7.  32
    WaveParticle Duality in Quantum Optics.Brigitte Falkenburg - 2009 - In Mauricio Suárez, Mauro Dorato & Miklós Rédei (eds.), EPSA Philosophical Issues in the Sciences · Launch of the European Philosophy of Science Association. Dordrecht, Netherland: Springer. pp. 31--42.
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  8. No Paradox in WaveParticle Duality.Andrew Knight - 2020 - Foundations of Physics 50 (11):1723-1727.
    The assertion that an experiment by Afshar et al. demonstrates violation of Bohr’s Principle of Complementarity is based on the faulty assumption that which-way information in a double-slit interference experiment can be retroactively determined from a future measurement.
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  9. Heisenberg and the waveparticle duality.Kristian Camilleri - 2006 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 37 (2):298-315.
  10.  42
    Critique of Wave-Particle Duality of Single-Photons.Varun S. Bhatta - 2021 - Journal for General Philosophy of Science / Zeitschrift für Allgemeine Wissenschaftstheorie 52 (4):501-521.
    A prominent way through which wave-particle duality has been ascribed to photons is by illustrating their “wave-like” behaviour in the Mach-Zehnder interferometer and “particle-like” behaviour in the anti-correlation experiment. This duality has been formulated in two ways. Some have based the claim on the complementarity principle. This formulation, however, has already been shown to be problematic. Others have made a much simpler duality claim by considering that single-photons are analogous to waves and particles (...)
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  11.  25
    Review: Wave-Particle Duality[REVIEW]M. L. G. Redhead - 1977 - British Journal for the Philosophy of Science 28 (1):65 - 74.
  12.  72
    Locality, reflection, and wave-particle duality.Mioara Mugur-Schächter - 1987 - Foundations of Physics 17 (8):813-857.
    Bell's theorem is believed to establish that the quantum mechanical predictions do not generally admit a causal representation compatible with Einsten's principle of separability, thereby proving incompatibility between quantum mechanics and relativity. This interpretation is contested via two convergent approaches which lead to a sharp distinction between quantum nonseparability and violation of Einstein's theory of relativity.In a first approach we explicate from the quantum mechanical formalism a concept of “reflected dependence.” Founded on this concept, we produce a causal representation of (...)
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  13.  48
    Review articles: Wave-particle duality.M. L. G. Redhead - 1977 - British Journal for the Philosophy of Science 28 (1):65-74.
  14.  15
    Was Newton's "Wave-Particle Duality" Consistent with Newton's Observations?Roger Stuewer - 1969 - Isis 60:392-394.
  15.  17
    Was Newton's "Wave-Particle Duality" Consistent with Newton's Observations?Roger H. Stuewer - 1969 - Isis 60 (3):392-394.
  16. Pascual Jordan's resolution of the conundrum of the wave-particle duality of light.Anthony Duncan & Michel Janssen - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 39 (3):634-666.
    In 1909, Einstein derived a formula for the mean square energy fluctuation in blackbody radiation. This formula is the sum of a wave term and a particle term. In a key contribution to the 1926 Dreim¨.
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  17.  49
    The development of attitudes to the wave-particle duality of light and quantum theory, 1900–1920.John Hendry - 1980 - Annals of Science 37 (1):59-79.
    (1980). The development of attitudes to the wave-particle duality of light and quantum theory, 1900–1920. Annals of Science: Vol. 37, No. 1, pp. 59-79.
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  18.  34
    De Broglie's wave particle duality in the stochastic interpretation of quantum mechanics: A testable physical assumption. [REVIEW]Ph Gueret & J. -P. Vigier - 1982 - Foundations of Physics 12 (11):1057-1083.
    If one starts from de Broglie's basic relativistic assumptions, i.e., that all particles have an intrinsic real internal vibration in their rest frame, i.e., hv 0 =m 0 c 2 ; that when they are at any one point in space-time the phase of this vibration cannot depend on the choice of the reference frame, then, one can show (following Mackinnon (1) ) that there exists a nondispersive wave packet of de Broglie's waves which can be assimilated to the (...)
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  19.  34
    Pascual Jordan's resolution of the conundrum of the wave-particle duality of light.Anthony Duncan & Michel Janssen - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics 39 (3):634-666.
  20.  23
    Reconsidering the Relation Between “Matter Wave Interference” and “WaveParticle Duality”.Lukas Mairhofer & Oliver Passon - 2022 - Foundations of Physics 52 (2):1-15.
    Interference of more and more massive objects provides a spectacular confirmation of quantum theory. It is usually regarded as support for “waveparticle duality” and in an extension of this duality even as support for “complementarity”. We first give an outline of the historical development of these notions. Already here it becomes evident that they are hard to define rigorously, i.e. have mainly a heuristic function. Then we discuss recent interference experiments of large and complex molecules which (...)
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  21.  6
    Review Articles: WAVE-PARTICLE DUALITY[REVIEW]Michael Redhead - 1977 - British Journal for the Philosophy of Science 28 (1):65-74.
  22.  42
    The two-prism experiment and wave-particle duality of light.Partha Ghose & Dipankar Home - 1996 - Foundations of Physics 26 (7):943-953.
    A number of papers on wave-particle duality has appeared since the two-prism experiment was performed by Mizobuchi and Ohtake, based on a suggestion by Ghose, Home, and Agarwal. Against this backdrop, the present paper provides further clarification of the key issues involved in the analysis of the two-prism experiment. In the process, we present an overview of wave-particle duality vis-a vis Bohr's complementarity principle.
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  23.  28
    Attempt at the logical explanation of the wave-particle duality.Jarosław Pykacz - 1999 - In Maria Luisa Dalla Chiara (ed.), Language, Quantum, Music. pp. 269--282.
  24.  29
    Wave, particle-family duality and the conservation of discrete symmetries in strong interaction.E. van der Spuy - 1984 - Foundations of Physics 14 (8):767-775.
    This paper starts from a nonlinear fermion field equation of motion with a strongly coupled self-interaction. Nonperturbative quark solutions of the equation of motion are constructed in terms of a Reggeized infinite component free spinor field. Such a field carries a family of strongly interacting unstable compounds lying on a Regge locus in the analytically continued quark spin. Such a quark field is naturally confined and also possesses the property of asymptotic freedom. Furthermore, the particular field self-regularizes the interactions and (...)
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  25.  72
    Pascual Jordan's resolution of the conundrum of the wave-particle duality of light[REVIEW]Anthony Duncan & Michel Janssen - 2008 - Studies in History and Philosophy of Science Part B: Studies in History and Philosophy of Modern Physics.
  26. List of Contents: Volume 16, Number 4, August 2003.Shigeki Matsutani, Yoshihiro Onishi & Wave-Particle Complementarity - 2004 - Foundations of Physics 34 (1).
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  27. UnQuantum Woolf: The Many Intellectual Contexts of To the Lighthouse's Metaphorical Wave-Particle Binary.Xavier Cousin - 2022 - Dissertation, Durham University
    This thesis is a sceptical investigation into the notion that the metaphorical wave-particle binary of Virginia Woolf's To the Lighthouse is related to quantum physics. Indeed, the field of literature and science has employed conceptual similarities as the main means of connecting quantum concepts to novels, however, this has led to a host of scholarly difficulties, prompting the need for a re-examination of analogical linkages. Woolf is the model candidate for such a re-examination, given her historical and philosophical (...)
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  28.  52
    Unsharp particle-wave duality in a photon split-beam experiment.P. Mittelstaedt, A. Prieur & R. Schieder - 1987 - Foundations of Physics 17 (9):891-903.
    In a quantum mechanical two-slit experiment one can observe a single photon simultaneously as particle (measuring the path) and as wave (measuring the interference pattern) if the path and the interference pattern are measured in the sense of unsharp observables. These theoretical predictions are confirmed experimentally by a photon split-beam experiment using a modified Mach—Zehnder interferometer.
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  29.  66
    Particles and waves: historical essays in the philosophy of science.Peter Achinstein - 1991 - New York: Oxford University Press.
    This volume brings together eleven essays by the distinguished philosopher of science, Peter Achinstein. The unifying theme is the nature of the philosophical problems surrounding the postulation of unobservable entities such as light waves, molecules, and electrons. How, if at all, is it possible to confirm scientific hypotheses about "unobservables"? Achinstein examines this question as it arose in actual scientific practice in three nineteenth-century episodes: the debate between particle and wave theorists of light, Maxwell's kinetic theory of gases, (...)
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  30.  40
    Critique of Quantum Optical Experimental Refutations of Bohr’s Principle of Complementarity, of the Wootters–Zurek Principle of Complementarity, and of the ParticleWave Duality Relation.P. N. Kaloyerou - 2016 - Foundations of Physics 46 (2):138-175.
    I argue that quantum optical experiments that purport to refute Bohr’s principle of complementarity fail in their aim. Some of these experiments try to refute complementarity by refuting the so called particlewave duality relations, which evolved from the Wootters–Zurek reformulation of BPC. I therefore consider it important for my forgoing arguments to first recall the essential tenets of BPC, and to clearly separate BPC from WZPC, which I will argue is a direct contradiction of BPC. This leads (...)
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  31.  7
    Whitehead and Particle -Wave Duality: A Critical Study from the Perspective of System Philosophy.Luke George - 2010 - Tattva - Journal of Philosophy 2 (1):66-79.
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  32.  22
    Wave-mechanical model for chemistry.Jan C. A. Boeyens - 2015 - Foundations of Chemistry 17 (3):247-262.
    The strength and defects of wave mechanics as a theory of chemistry are critically examined. Without the secondary assumption of waveparticle duality, the seminal equation describes matter waves and leaves the concept of point particles undefined. To bring the formalism into line with the theory of special relativity, it is shown to require reformulation in hypercomplex algebra that imparts a new meaning to electron spin as a holistic spinor, eliminating serious current misconceptions in the process. Reformulation (...)
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  33.  75
    Standing Waves in the Lorentz-Covariant World.Y. S. Kim & Marilyn E. Noz - 2005 - Foundations of Physics 35 (7):1289-1305.
    When Einstein formulated his special relativity, he developed his dynamics for point particles. Of course, many valiant efforts have been made to extend his relativity to rigid bodies, but this subject is forgotten in history. This is largely because of the emergence of quantum mechanics with wave-particle duality. Instead of Lorentz-boosting rigid bodies, we now boost waves and have to deal with Lorentz transformations of waves. We now have some nderstanding of plane waves or running waves in (...)
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  34. Quantum Control in Foundational Experiments.Lucas C. Céleri, Rafael M. Gomes, Radu Ionicioiu, Thomas Jennewein, Robert B. Mann & Daniel R. Terno - 2014 - Foundations of Physics 44 (5):576-587.
    We describe a new class of experiments designed to probe the foundations of quantum mechanics. Using quantum controlling devices, we show how to attain a freedom in temporal ordering of the control and detection of various phenomena. We consider waveparticle duality in the context of quantum-controlled and the entanglement-assisted delayed-choice experiments. Then we discuss a quantum-controlled CHSH experiment and measurement of photon’s transversal position and momentum in a single set-up.
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  35. If Quantum Mechanics Is the Solution, What Should the Problem Be?Vasil Penchev - 2020 - Philosophy of Science eJournal (Elsevier: SSRN) 13 (32):1-10.
    The paper addresses the problem, which quantum mechanics resolves in fact. Its viewpoint suggests that the crucial link of time and its course is omitted in understanding the problem. The common interpretation underlain by the history of quantum mechanics sees discreteness only on the Plank scale, which is transformed into continuity and even smoothness on the macroscopic scale. That approach is fraught with a series of seeming paradoxes. It suggests that the present mathematical formalism of quantum mechanics is only partly (...)
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  36. A Unified Explanation of Quantum Phenomena? The Case for the Peer‐to‐Peer Simulation Hypothesis as an Interdisciplinary Research Program.Marcus Arvan - 2014 - Philosophical Forum 45 (4):433-446.
    In my 2013 article, “A New Theory of Free Will”, I argued that several serious hypotheses in philosophy and modern physics jointly entail that our reality is structurally identical to a peer-to-peer (P2P) networked computer simulation. The present paper outlines how quantum phenomena emerge naturally from the computational structure of a P2P simulation. §1 explains the P2P Hypothesis. §2 then sketches how the structure of any P2P simulation realizes quantum superposition and wave-function collapse (§2.1.), quantum indeterminacy (§2.2.), wave- (...) duality (§2.3.), and quantum entanglement (§2.4.). Finally, §3 argues that although this is by no means a philosophical proof that our reality is a P2P simulation, it provides ample reasons to investigate the hypothesis further using the methods of computer science, physics, philosophy, and mathematics. (shrink)
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  37.  13
    On the Nature of Quantum Dynamical Variables.James R. Johnston - 2015 - Cosmos and History 11 (2):310-325.
    An elementary review of the origin of quantum theory, with focus on the nature of the quantum dynamic variables, reveals the essential wave-likeness of quantum dynamics. The introduction of the concept of point-particle entities resulted from over-use of classical perspectives, and an issue of language: conflation of the concepts of point-particle localization, and discreteness of quantum detections. Keeping in mind the distinction between point-localization and discreteness of quantum exchange, it is clear that there is no experimental evidence (...)
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  38. Inconsistencies in constituent theories of world views: Quantum mechanical examples. [REVIEW]Diederik Aerts, Jan Broekaert & Sonja Smets - 1998 - Foundations of Science 3 (2):313-340.
    We put forward the hypothesis that there exist three basic attitudes towards inconsistencies within world views: (1) The inconsistency is tolerated temporarily and is viewed as an expression of a temporary lack of knowledge due to an incomplete or wrong theory. The resolution of the inconsistency is believed to be inherent to the improvement of the theory. This improvement ultimately resolves the contradiction and therefore we call this attitude the ‘regularising’ attitude; (2) The inconsistency is tolerated and both contradicting elements (...)
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  39. The case against quantum duality.Alfred Landé - 1962 - Philosophy of Science 29 (1):1-6.
    (1) The idea that diffraction of matter particles can only be understood in terms of a temporary wave transformation or 'double manifestation' is an uneconomical ad hoc hypothesis, shattered already in 1923 by the unitary quantum theory of diffraction of Duane which in 1926 became part of the quantum mechanics, with a statistical interpretation of wave-like appearances. (2) Bohr's re-interpretation of Heisenberg's uncertainty of prediction as an indeterminacy of existence rests on an illegitimate literal translation of a (...) result into particle language which is at variance with experience as well as with the statistical interpretation. (3) The fact that one can transform the simple and unitary particle mechanics into a complicated wavelike form is only a weak substitute for genuine dualism -- as if one would see dualism in the transformability from the geo- to the heliocentric reference system. (4) The strongest argument against a symmetry of the particle and the wave theory of matter is the explainability of the former in terms of simple postulates of invariance, leaving the wave formalism as a purely ad hoc construction. (shrink)
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  40.  7
    Quantum Learning: Beyond Duality.Conrad P. Pritscher (ed.) - 2001 - BRILL.
    This book shows quantum learning is the resource that unites parts into wholes and then wholes into continually larger wholes. Just as quantum computers can regard sub-atomic particles as a wave and as particles, quantum learning can understand learners as simultaneously nondual (whole) and dual (part). The study includes a reconsideration of clarity in expression and thought.
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  41.  82
    Waves, particles, and explanatory coherence.Chris Eliasmith & Paul Thagard - 1997 - British Journal for the Philosophy of Science 48 (1):1-19.
    Peter Achinstein (1990, 1991) analyses the scientific debate that took place in the eighteenth and nineteenth centuries concerning the nature of light. He offers a probabilistic account of the methods employed by both particle theorists and wave theorists, and rejects any analysis of this debate in terms of coherence. He characterizes coherence through reference to William Whewell's writings concerning how "consilience of inductions" establishes an acceptable theory (Whewell, 1847) . Achinstein rejects this analysis because of its vagueness and (...)
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  42.  22
    Wave-corpuscle duality of light reconsidered.C. Cormier-Delanoue - 1995 - Foundations of Physics 25 (3):465-479.
    The old and yet unanswered question of the precise nature of light, although completely and deliberately neglected nowadays, is reexamined by several new methods, both theoretical and experimental. The wave-corpuscle duality of light then appears somewhat different, and a new hypothesis on the process of electromagnetic interaction may be proposed in an attempt to untangle the dilemma and reach a more realistic description.
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  43.  64
    Wave-particle dualism and the interpretation of quantum mechanics.C. Dewdney, G. Horton, M. M. Lam, Z. Malik & M. Schmidt - 1992 - Foundations of Physics 22 (10):1217-1265.
    The realist interpretations of quantum theory, proposed by de Broglie and by Bohm, are re-examined and their differences, especially concerning many-particle systems and the relativistic regime, are explored. The impact of the recently proposed experiments of Vigier et al. and of Ghose et al. on the debate about the interpretation of quantum mechanics is discussed. An indication of how de Broglie and Bohm would account for these experimental results is given.
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  44. Niels Bohr's philosophy of physics.Dugald Murdoch - 1987 - New York: Cambridge University Press.
    Murdoch describes the historical background of the physics from which Bohr's ideas grew; he traces the origins of his idea of complementarity and discusses its meaning and significance. Special emphasis is placed on the contrasting views of Einstein, and the great debate between Bohr and Einstein is thoroughly examined. Bohr's philosophy is revealed as being much more subtle, and more interesting than is generally acknowledged.
  45.  15
    Waves, Particles, Independent Tests and the Limits of Inductivism.Larry Laudan - 1992 - PSA: Proceedings of the Biennial Meeting of the Philosophy of Science Association 1992:212 - 223.
    This paper seeks to show that Achinstein's recent attempt to establish that both parties to the wave-particle debate in 19th-century optics were Bayesian conditionalizers forces us to ignore several of the key conceptual issues in that controversy-not least the role of the vera causa principle and, more important still, the role of positive evidence in securing acceptance for the wave theory of light.
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  46.  6
    The wave-particle dilemma.Leon Rosenfeld - 1973 - In Jagdish Mehra (ed.), The physicist's conception of nature. Boston,: Reidel. pp. 251--263.
  47.  34
    The Wave-Particle Dualism: A Tribute to Louis de Broglie on His 90th Birthday. S. Diner, D. Fargue, G. Lochak, F. Selleri.Stanley P. Gudder - 1985 - Philosophy of Science 52 (1):169-170.
  48. Waves, Particles, and Paradoxes.W. H. Austin - 1967
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  49.  85
    Probabilidad y causalidad en la filosofía de Max Born.Mª Pilar González Fernández - 2005 - Logos. Anales Del Seminario de Metafísica [Universidad Complutense de Madrid, España] 38:241-269.
    El legado científico filosófico de Max Born, al estar vinculado a la conocida como interpretación ortodoxa de la mecánica cuántica o interpretación de Copenhague, ha sido entendido desde el marco de una filosofía de la ciencia de corte instrumentalista, considerando su interpretación probabilística de la función de onda como la más clara defensa de una postura indeterminista acausal. Frente a este orden de cosas, este artículo pretende lograr dos objetivos. El primero consiste en mostrar cómo la interpretación de Born, a (...)
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  50.  18
    Waves, Particles, and Newton's 'Fits'.Norwood Russell Hanson - 1960 - Journal of the History of Ideas 21 (1/4):370.
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