Linked bibliography for the SEP article "Philosophical Issues in Quantum Theory" by Wayne Myrvold

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If everything goes well, this page should display the bibliography of the aforementioned article as it appears in the Stanford Encyclopedia of Philosophy, but with links added to PhilPapers records and Google Scholar for your convenience. Some bibliographies are not going to be represented correctly or fully up to date. In general, bibliographies of recent works are going to be much better linked than bibliographies of primary literature and older works. Entries with PhilPapers records have links on their titles. A green link indicates that the item is available online at least partially.

This experiment has been authorized by the editors of the Stanford Encyclopedia of Philosophy. The original article and bibliography can be found here.

  • Albert, David Z., 1996, “Elementary quantum metaphysics”, in J.T. Cushing, A. Fine, & S. Goldstein (eds.), Bohmian Mechanics and Quantum Mechanics: An appraisal, Dordrecht: Kluwer, 277–284. (Scholar)
  • –––, 2013, “Wave function realism”, in Ney and Albert (eds.) 2013: 52–57. (Scholar)
  • Allori, Valia, 2013, “Primitive Ontology and the Structure of Fundamental Physical Theories”, in Ney and Albert (eds.) 2013: 58–90. (Scholar)
  • Allori, Valia, 2021, “Wave-functionalism”, Synthese, 199: 12271–12293. (Scholar)
  • Allori, Valia, Sheldon Goldstein, Roderich Tumulka, and Nino Zanghì, 2008, “On the Common Structure of Bohmian Mechanics and the Ghirardi–Rimini–Weber Theory”, The British Journal for the Philosophy of Science, 59(3): 353–389. doi:10.1093/bjps/axn012 (Scholar)
  • Bacciagaluppi, Guido, 2002, “Remarks on Space-time and Locality in Everett’s Interpretation”, in T. Placzek and J. Butterfield (eds.), Non-locality and Modality, Berlin: Springer, 105–124. (Scholar)
  • Bacciagaluppi, Guido, and Antony Valentini, 2009, Quantum Theory at the Crossroads: Reconsidering the 1927 Solvay Conference, Cambridge: Cambridge University Press. (Scholar)
  • Bell, J.S., 1966, “On the Problem of Hidden Variables in Quantum Mechanics”, Reviews of Modern Physics, 38: 447–52; reprinted in Bell 2004: 1–13. (Scholar)
  • –––, 1986, “Six Possible Worlds of Quantum Mechanics”, in S. Allén (ed.), Possible Worlds in Humanities, Arts and Sciences, Berlin, Walter de Gruyter, 359–373; reprinted in Bell 2004, 181–195. (Scholar)
  • –––, 1987, “Are There Quantum Jumps?” in C.W. Kilmister (ed), Schrödinger: Centenary celebration of a polymath, Cambridge: Cambridge University Press, 41–52; reprinted in Bell 2004: 201–212. (Scholar)
  • –––, 1990, “Against ‘Measurement’”, Physics World, 3: 33–40; reprinted in Bell 2004: 213–231. (Scholar)
  • –––, 2004, Speakable and Unspeakable in Quantum Mechanics, 2nd edition, Cambridge: Cambridge University Press. (Scholar)
  • Bell, Mary and Shan Gao (eds.), 2016, Quantum Nonlocality and Reality: 50 Years of Bell’s Theorem, Cambridge: Cambridge University Press. (Scholar)
  • Belot, Gordon, 2012, “Quantum States for primitive ontologists: a case study”, European Journal for the Philosophy of Science, 2: 67–83. (Scholar)
  • Berndl, Karin, Detlef Dürr, Sheldon Goldstein, and Nino Zanghì, 1996, “Nonlocality, Lorentz invariance, and Bohmian quantum theory“, Physical Review A, 53: 2062–2073. (Scholar)
  • Birkhoff, Garrett, and John von Neumann, 1936, “The Logic of Quantum Mechanics”, Annals of Mathematics (second series), 37: 823–43. (Scholar)
  • Bong, Kok-Wei, Aníbal Utreras-Alarcón, Farzad Ghafari, Yeong-Cherng Liang, Nora Tischler, Eric G. Cavalcanti, Geoff J. Pryde & Howard M. Wiseman, 2020, “A strong no-go theorem on the Wigner’s friend paradox”, Nature Physics, 16: 1199–1205. (Scholar)
  • Brown, Harvey R. and Christopher G. Timpson, 2016,“Bell on Bell’s Theorem: The Changing Face of Nonlocality”, in Bell and Gao (eds.) 2016: 91–123. (Scholar)
  • Brukner, Časlav, 2018, “A no-go theorem for observer-independent facts”, Entropy, 20(5): 350.
  • Bub, Jeffrey, 2000, “Indeterminacy and entanglement: the challenge of quantum mechanics”, The British Journal for the Philosophy of Science, 51: 597–615. (Scholar)
  • –––, 2020, “‘Two Dogmas’ Redux”, in M. Hemmo and O. Shenker (eds.), Quantum, Probability, Logic: The Work and Influence of Itamar Pitowsky, Berlin: Springer, 199–216. (Scholar)
  • –––, 2021, “Understanding the Frauchiger–Renner Argument”, Foundations of Physics, 51: 36. (Scholar)
  • Cavalcanti, Eric, 2021, “The View from a Wigner Bubble”, Foundations of Physics, 51: 39. (Scholar)
  • Cavalcanti, Eric, and Howard M. Wiseman, 2021, “Implications of Local Friendliness for Violation for Quantum Causality”, Entropy, 23: 925. (Scholar)
  • Chiribella, Giulio, Giacomo Mauro D’Ariano, and Paolo Perinotti, 2011, “Informational derivation of quantum theory”, Physical Review A, 84: 012311. doi:10.1103/PhysRevA.84.012311 (Scholar)
  • Chiribella, Giulio and Robert W. Spekkens (eds.), 2015, Quantum Theory: Informational Foundations and Foils, Berlin: Springer. (Scholar)
  • Dascal, Michael, 2020, “What’s left for the neo-Copenhagen theorist”, Studies in History and Philosophy of Modern Physics, 72: 310–321. (Scholar)
  • Deutsch, David and Patrick Hayden, 2000, “Information flow in entangled quantum systems”, Proceedings of the Royal Society of London A, 456: 1759–74. (Scholar)
  • Dieks, Dennis, 2019, “Quantum Mechanics and Perspectivalism”, in O. Lombardi, S. Fortin, C. Lopez, and F. Holik (eds.), Quantum Worlds: Perspectives on the Ontology of Quantum Mechanics, Cambridge: Cambridge University Press, 51–70. (Scholar)
  • Dirac, P.A.M., 1935, Principles of Quantum Mechanics, 2nd edition, Oxford: Oxford University Press. (Scholar)
  • Dürr, Detlef, Sheldon Goldstein, and Nino Zanghì, “Quantum Equilibrium and the Origin of Absolute Uncertainty”, Journal of Statistical Physics, 67: 843–907. (Scholar)
  • –––, 1997, “Bohmian Mechanics and the Meaning of the Wave Function”, in R.S. Cohen, M. Horne and J. Stachel (eds.), Experimental Metaphysics: Quantum Mechanical Studies for Abner Shimony (Volume 1), Boston: Kluwer Academic Publishers. (Scholar)
  • Einstein, Albert, Boris Podolsky, and Nathan Rosen, 1935, “Can Quantum-Mechanical Description of Reality Be Considered Complete?Physical Review, 47: 777–780. (Scholar)
  • Einstein, Albert, 1936, “Physik und Realität”, Journal of the Franklin Institute, 221: 349–382. English translation in Einstein 1954. (Scholar)
  • –––, 1948, “Quanten-Mechanik und Wirklichkeit”, Dialectica, 2: 320–324. (Scholar)
  • –––, 1949, “Autobiographical notes”, in P.A. Schilpp (ed.), Albert Einstein: Philosopher-Scientist, Chicago: Open Court. (Scholar)
  • –––, 1954, “Physics and reality”, in Ideas and Opinions, New York: Crown Publishers, Inc., 290–323 (translation of Einstein 1936). (Scholar)
  • Egg, Matthias, 2017, “The physical salience of non-fundamental local beables”, Studies in History and Philosophy of Modern Physics, 57: 104–110. (Scholar)
  • –––, 2021, “Quantum Ontology without Speculation”. European Journal for Philosophy of Science, 11: 32. (Scholar)
  • Evans, Peter W., 2020, “Perspectival objectivity, Or: how I learned to stop worrying and love observer-dependent reality”, European Journal for Philosophy of Science, 10: 19. (Scholar)
  • Everett III, Hugh, 2012, The Everett Interpretation of Quantum Mechanics: Collected Works 1955–1980 With Commentary, Jeffrey A. Barrett and Peter Byrne (eds.), Princeton: Princeton University Press. (Scholar)
  • Fleming, Gordon N., 2016, “Bell Nonlocality, Hardy’s Paradox and Hyperplane Dependence”, in Bell and Gao (eds.) 2016: 261–281. (Scholar)
  • Fortin, Sebastian, and Olimpia Lombardi, 2020, “The Frauchiger-Renner argument: A new no-go result?Studies in History and Philosophy of Modern Physics, 70: 1–7. (Scholar)
  • Frauchiger, Daniela, & Renato Renner, 2018, “Quantum theory cannot consistently describe the use of itself”, Nature Communications, 9: 3711. (Scholar)
  • Freire Jr., Olival , Guido Bacciagaluppi, Olivier Darrigol, Thiago Hartz, Christian Joas, Alexei Kojevnikov, and Osvaldo Pessoa Jr. (eds.), 2022, The Oxford Handbook of the History of Quantum Interpretations, Oxford: Oxford University Press. (Scholar)
  • French, Steven, and Juha Saatsi (eds.), 2020, Scientific Realism and the Quantum, Oxford: Oxford University Press. (Scholar)
  • Fuchs, Christopher A., N. David Mermin, and Rüdiger Schack, 2014, “An introduction to QBism with an application to the locality of quantum mechanics”, American Journal of Physics, 82: 749–752. (Scholar)
  • Gao, Shan (ed.), 2018, Collapse of the Wave Function: Models, Ontology, Origin, and Implications, Cambridge: Cambridge University Press. (Scholar)
  • Guérin, Philippe Allard, Veronika Baumann, Flavio Del Santo, and Časlav Brukner, 2021, “A no-go theorem for the persistent reality of Wigner’s friend’s perception”, Communications Physics, 4: 93. (Scholar)
  • Harrigan, Nicholas and Robert W. Spekkens, 2010, “Einstein, Incompleteness, and the Epistemic View of Quantum States”, Foundations of Physics, 40: 125–157. (Scholar)
  • Healey, Richard, 2012, “Quantum Theory: A Pragmatist Approach”, The British Journal for the Philosophy of Science, 63: 729–771. (Scholar)
  • –––, 2017a, “Quantum States as Objective Informational Bridges”, Foundations of Physics, 47: 161–173. (Scholar)
  • –––, 2017b, The Quantum Revolution in Philosophy, Oxford: Oxford University Press. (Scholar)
  • –––, 2018, “Quantum theory and the limits of objectivity”, Foundations of Physics, 48: 1568–1589. (Scholar)
  • —, 2020, “Pragmatist Quantum Realism”, in French and Saatsi (eds.), 2021: 123–146. (Scholar)
  • Heisenberg, Werner, 1930a, Die Physicalische Prinzipien der Quantentheorie, Leipzig: Verlag von S. Hirzel. (Scholar)
  • –––, 1930b, The Physical Principles of the Quantum Theory, Carl Eckert and F.C. Hoyt (trans.), Chicago: University of Chicago Press. (Scholar)
  • Howard, Don, 2004, “Who Invented the ‘Copenhagen Interpretation’? A Study in Mythology”, Philosophy of Science, 71: 669–682. (Scholar)
  • Hubert, Mario, and Davide Romano, 2018, “The wave-function as a multi-field”, European Journal for the Philosophy of Science, 8: 521–537. (Scholar)
  • Kastner, Ruth, 2020, “Unitary‑Only Quantum Theory Cannot Consistently Describe the Use of Itself: On the Frauchiger–Renner Paradox”, Foundations of Physics, 50: 441–456. (Scholar)
  • Knox, Eleanor, and Alastair Wilson (eds.), 2021, The Routledge Companion to Philosophy of Physics, London: Routledge. (Scholar)
  • Kochen, Simon and Ernst Specker, 1967, “The Problem of Hidden Variables in Quantum Mechanics”, Journal of Mathematics and Mechanics, 17: 59–87. (Scholar)
  • Lazarovici, Dustin, and Mario Hubert, 2019, “How Quantum Mechanics can consistently describe the use of itself”, Scientific Reports, 9: 470. (Scholar)
  • Leifer, Matthew Saul, 2014, “Is the Quantum State Real? An Extended Review of \(\psi\)-ontology Theorems”, Quanta, 3: 67–155. (Scholar)
  • Lewis, Peter J., 2004, “Life in configuration space”, The British Journal for the Philosophy of Science, 55: 713–729. doi:10.1093/bjps/55.4.713 (Scholar)
  • Loewer, B., 1996, “Humean supervenience”, Philosophical Topics, 24: 101–127. (Scholar)
  • London, Fritz and Edmond Bauer, 1939, La théorie de l’observation en mécanique quantique, Paris: Hermann. English translation, “The theory of observation in quantum mechanics”, in Quantum Theory and Measurement, J.A. Wheeler and W.H. Zurek (eds.), Princeton: Princeton University Press, 1983, 217–259. (Scholar)
  • Losada, Marcelo, Roberto Laura, and Olimpia Lombardi, 2019, “Frauchiger-Renner argument and quantum histories”, Physical Review A, 100: 052114. (Scholar)
  • Ludwig, G., 1964, “Versuch einer axiomatischen Grundlegung der Quantenmechanik und allgemeinerer physikalischer Theorien”, Zeitschrift für Physik, 181: 233–260. (Scholar)
  • Mackey, George W. 1957, “Quantum Mechanics and Hilbert Space”, American Mathematical Monthly, 64: 45–57. (Scholar)
  • –––, 1963, The Mathematical Foundations of Quantum Mechanics: A lecture-note volume, New York: W.A. Benjamin. (Scholar)
  • Masanes, Lluís and Markus P. Müller, 2011, “A derivation of quantum theory from physical Requirements”, New Journal of Physics, 13: 063001. (Scholar)
  • Maudlin, Tim, 2016, “Local Beables and the Foundations of Physics”, in Bell and Gao (eds.) 2016: 317–330. (Scholar)
  • Muciño, R., and E. Okon, 2020, “Wigner’s convoluted friends”, Studies in History and Philosophy of Modern Physics, 72: 87–90. (Scholar)
  • Myrvold, Wayne C., 2002, “Modal Interpretations and Relativity”, Foundations of Physics, 32: 1773–1784. (Scholar)
  • –––, 2015, “What is a Wavefunction?Synthese, 192: 3247–3274. (Scholar)
  • –––, 2016, “Lessons of Bell”s Theorem: Nonlocality, Yes; Action at a Distance, Not Necessarily”, in Bell and Gao (eds.) 2016: 237–260. (Scholar)
  • –––, 2018, “Ontology for Collapse Theories,” in Gao (ed.) 2018: 97–123. (Scholar)
  • –––, 2020, “On the Status of Quantum State Realism,” in French and Saatsi (eds.), 2020: 229–251. (Scholar)
  • –––, 2021, “Relativistic Constraints on Interpretations of Quantum Mechanics”, in Knox and Wilson (eds.) 2021: 99–121. (Scholar)
  • Ney, Alyssa, 2012, “The status of our ordinary three dimensions in a quantum universe”, Noûs, 46: 525–560. (Scholar)
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  • –––, 2013b, “Ontological reduction and the wave function ontology”, in Ney and Albert (eds.) 2013: 168– 183.
  • –––, 2021, The World in the Wave Function: A Metaphysics for Quantum Physics, Oxford, Oxford University Press. (Scholar)
  • Ney, Alyssa and David Z. Albert (eds.), 2013, The Wave Function: Essays on the Metaphysics of Quantum Mechanics, Oxford: Oxford University Press. (Scholar)
  • North, Jill, 2013, “The structure of a quantum world”, in Ney and Albert (eds.) 2013: 184–202. (Scholar)
  • Piron, Constantin, 1964, “Axiomatique quantique”, Helvetica Physica Acta, 37: 439–468. (Scholar)
  • Pusey, Matthew F., Jonathan Barrett, and Terry Rudolph, 2012, “On the Reality of the Quantum State”, Nature Physics, 8: 475–478. (Scholar)
  • Saunders, Simon, 2007. “Many Worlds? An Introduction”, in S. Saunders, J. Barrett, A. Kent, and D. Wallace (eds.), Many Worlds? Everett, Quantum Theory, and Reality, Oxford: Oxford University Press, 1–50. (Scholar)
  • Spekkens, Robert W., 2007, “Evidence for the Epistemic view of Quantum States: A Toy Theory”, Physical Review A, 75: 032110. (Scholar)
  • –––, 2015, “Quasi-Quantization: Classical Statistical Theories with an Epistemic Restriction”, in Chiribella and Spekkens 2015: 83–135. (Scholar)
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  • –––, 2019, “The Hidden Assumptions of Frauchiger and Renner”, International Journal of Quantum Foundations, 5: 98-109. (Scholar)
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  • Vaidman, Lev, 1994, “On the paradoxical aspects of new quantum experiments”, in D. Hull, M. Forbes and R.M. Burian (eds.), PSA 1994 (Volume 1), Philosophy of Science Association, 211–17. (Scholar)
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  • Wigner, Eugene P., 1962, “Remarks on the Mind-Body Problem”, in I.J. Good (ed.), The Scientist Speculates: An Anthology of Partly-Baked Ideas, London: William Heinemann, 284–320; reprinted in Wigner (1967), 171–184. (Scholar)
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