Linked bibliography for the SEP article "Time Travel and Modern Physics" by Frank Arntzenius and Tim Maudlin

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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.

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  • Deutsch, D. 1991. “Quantum mechanics near closed timelike curves,” Physical Review D, 44: 3197-3217. (Scholar)
  • Deutsch, D. and Lockwood, M. 1994. “The quantum physics of time travel,” Scientific American, 270 (3): 68-74. (Scholar)
  • Earman, J. 1972. “Implications of causal propagation outsider the null cone,” in Foundations of Space-Time Theory, Minnesota Studies in the Philosophy of Science, Vol VII, Earman, J., Glymour, C., and Stachel, J. (eds), pp. 94-108. Minneapolis: University of Minnesota Press. (Scholar)
  • Earman, J. 1995. Bangs, Crunches, Whimpers and Shrieks: Singularities and Acausalities in Relativistic Spacetimes, New York: Oxford University Press. (Scholar)
  • Earman, J., Smeenk, C., and Wüthrich, C. 2009.“Do the laws of physics forbid the operation of a time machine?,” Synthese, 169 (1): 91-124. (Scholar)
  • Echeverria, F., Klinkhammer, G., and Thorne, K. 1991. “Billiard ball in wormhole spacetimes with closed timelike curves: classical theory,” Physical Review D, 44 (4): 1077-1099. (Scholar)
  • Friedman, J. et al. 1990. “Cauchy problem in spacetimes with closed timelike lines,” Physical Review D, 42: 1915-1930. (Scholar)
  • Friedman, J. and Morris, M. 1991. “The Cauchy problem for the scalar wave equation is well defined on a class of spacetimes with closed timelike curves,” Physical Review letters, 66: 401-404. (Scholar)
  • Geroch, R. and Horowitz, G. 1979. “Global structures of spacetimes,” in General Relativity, an Einstein Centenary Survey, S. Hawking and W. Israel (eds.), Cambridge: Cambridge University Press. (Scholar)
  • Gödel, K. 1949. “A remark about the relationship between relativity theory and idealistic philosophy,” in Albert Einstein: Philosopher-Scientist, P. Schilpp (ed.), La Salle: Open Court, pp. 557-562.
  • Hocking, J., and Young, G. 1961. Topology, New York: Dover Publications. (Scholar)
  • Horwich, P. 1987. “Time travel,” in Asymmetries in time, Cambridge, MA: MIT Press. (Scholar)
  • Kutach, D. 2003. “Time travel and consistency constraint”, Philosophy of Science, 70: 1098-1113. (Scholar)
  • Malament, D. 1985a. “’Time travel’ in the Gödel universe,” PSA 1984, 2: 91-100, P. Asquith and P. Kitcher (eds.), East Lansing, MI: Philosophy of Science Association. (Scholar)
  • Malament, D. 1985b. “Minimal acceleration requirements for ‘time travel’ in Gödel spacetime,” Journal of Mathematical Physics, 26: 774-777. (Scholar)
  • Maudlin, T. 1990. “Time Travel and topology,” PSA 1990, 1: 303-315, East Lansing, MI: Philosophy of Science Association. (Scholar)
  • Novikov, I. 1992. “Time machine and self-consistent evolution in problems with self-interaction,” Physical Review D, 45: 1989-1994. (Scholar)
  • Thorne, K. 1994. Black Holes and Time Warps, Einstein's Outrageous Legacy, London and New York: W.W. Norton. (Scholar)
  • Wheeler, J. and Feynman, R. 1949. “Classical electrodynamics in terms of direct interparticle action,” Reviews of Modern Physics, 21: 425-434. (Scholar)
  • Yurtsever, U. 1990. “Test fields on compact space-times,” Journal of Mathematical Physics, 31: 3064-3078. (Scholar)

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