Quantum states for primitive ontologists

Albert, D. Z. (1996). Elementary quantum metaphysics. In J. T. Cushing, A. Fine, & S. Goldstein (Eds.), Bohmian mechanics and quantum mechanics: An appraisal (pp. 277–284). Dordrecht: Kluwer.

Albert, D. Z. (2000). Time and chance. Cambridge M.A.: Harvard University Press.

Allori, V., Goldstein, S., Tumulka, R., & Zanghì, N. (2008). On the common structure of Bohmian mechanics and the Ghirardi–Rimini–Weber theory. The British Journal for the Philosophy of Science, 59, 353–389.

Ballentine, L. (1998). Quantum mechanics: A modern development. Singapore: World Scientific.

Bell, J. S. (1987). Speakable and unspeakable in quantum mechanics. Cambridge: Cambridge University Press.

Belot, G. (2001). The principle of sufficient reason. Journal of Philosophy, XCVIII, 55–74.

Belot, G. (2011). Geometric possibility. Oxford: Oxford University Press.

Belot, G., & Earman, J. (2001). Pre-Socratic quantum gravity. In C. Callender & N. Huggett (Eds.), Physics meets philosophy at the planck scale: Contemporary theories in quantum gravity (pp. 213–255). Cambridge: Cambridge University Press.

Berndl, K., Dürr, D., Goldstein, S., Peruzzi, G., & Zanghì, N. (1995). On the global existence of Bohmian mechanics. Communications in Mathematical Physics, 173, 647–673.

Bub, J., & Pitowsky, I. (2010). Two dogmas about quantum mechanics. In S. Saunders, J. Barrett, A. Kent, & D. Wallace (Eds.), Many worlds? Everett, quantum theory, and reality (pp. 433–469). Oxford: Oxford University Press.

Butterfield, J., & Isham, C. (1999). On the emergence of time in quantum gravity. In J. Butterfield (Ed.), The arguments of time (pp. 111–168). Oxford: Oxford University Press.

Callender, C. (2004). There is no puzzle about the low-entropy past. In C. Hitchcock (Ed.), Contemporary debates in philosophy of science (pp. 240–255). Oxford: Blackwell.

Callender, C. (2007). Emergence and interpretation of proability in Bohmian mechanics. Studies in History and Philosophy of Modern Physics, 38, 351–370.

Dowker, F., & Herbauts, I. (2005). The status of the wave function in dynamical collapse models. Foundations of Physics Letters, 18, 499–518.

Dürr, D., Goldstein, S., & Zanghì, N. (1997). Bohmian mechanics and the meaning of the wave function. In R. S. Cohen, M. Horne, & J. Stachel (Eds.), Experimental metaphysics: Quantum mechanical studies for Abner Shimony (pp. 25–38). Dordrecht: Kluwer.

Forrest, P. (1988) Quantum metaphysics. Oxford: Blackwell.

Goldstein, S. (1998). Quantum theory without observers. Physics Today 51: March 42–46 & April 38–42

Goldstein, S., & Teufel, S. (2001). Quantum spacetime without observers. In Callender C. & Huggett, N. (Eds.), Physics meets philosophy at the planck scale: Contemporary theories in quantum gravity (pp. 275–289). Cambridge: Cambridge University Press.

Grübl, G., & Penz, M. (2011). Non-differentiable Bohmian trajectories. In P. K. Chattaraj (Ed.), Quantum trajectories (pp. 251–262). Boca Raton: C.R.C. Press.

Hall, M. (2004). Incompleteness of trajectory-based interpretations of quantum mechanics. Journal of Physics A, 37, 9549–9556.

Lange, M. (2009). Laws and lawmakers: Science, metaphysics, and the laws of nature. Oxford: Oxford University Press.

Lewis, D. (1999). Papers in metaphysics and epistemology. Cambridge: Cambridge University Press.

Lodge, P. (2003). Leibniz on relativity and the motion of bodies. Philosophical Topics, 31, 277–308.

Loewer, B. (1996). Humean supervenience. Philosophical Topics, 24, 101–127.

Loewer, B. (2001). Determinism and chance. Studies in History and Philosophy of Modern Physics, 32, 609–620.

Maudlin, T. (2007). Completeness, supervenience, and ontology. Journal of Physics A, 40, 3151–3171.

Maudlin, T. (2008). Non-local correlations in quantum theory: How the trick might be done. In W. L. Craig, & Q. Smith (Eds.), Einstein, relativity, and absolute simultaneity (pp. 156–179). London: Routledge

Monton, B. (2006). Quantum mechanics and 3n-dimensional space. Philosophy of Science, 73, 778–789.

Myrvold, W. (2003). On some early objections to Bohm’s theory. International Studies in Philosophy of Science, 17, 7–24.

Roberts, J. T. (2008). The law-governed universe. Oxford: Oxford University Press.

Ruetsche, L. (2011). Interpreting quantum theories: The art of the possible. Oxford: Oxford University Press.

Sklar, L. (1993). Physics and chance: Philosophical issues in the foundations of statistical mechanics. Cambridge: Cambridge University Press.

Spohn, H. (2004). Dynamics of charged particles and their radiation field. Cambridge: Cambridge University Press

Tumulka, R. (2006). A relativistic version of the Ghirardi–Rimini–Weber model. Journal of Statistical Physics, 125, 825–844.

Tumulka, R. (2007). The ‘unromantic pictures’ of quantum theory. Journal of Physics A, 40, 3245–3273.

van Fraassen, B. (2007). From a view of science to a new empiricism. In B. Monton (Ed.), Images of empiricism: Essays on science and stances, with a reply from Bas C. van Fraassen (pp. 337–383). Oxford: Oxford University Press.

Wallace, D. (2003). Everett and structure. Studies in History and Philosophy of Modern Physics, 34, 86–105.