Linked bibliography for the SEP article "Time Machines" by John Earman, Christian Wüthrich and JB Manchak
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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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- Arntzenius, F. and T. Maudlin, 2009, “Time Travel and Modern Physics,” in E.N. Zalta (ed.), The Stanford Encyclopedia of Philosophy (Spring 2009 Edition), URL = <https://plato.stanford.edu/archives/spr2009/entries/time-travel-phys/>. (Scholar)
- Brightwell, G., H.F. Dowker, R.S. Garcia, J. Henson, and
R.D. Sorkin, 2003, “‘Observables’ in causal set
cosmology,” Physical Review D, 67:
08403.
[Preprint available online.] (Scholar)
- Callender, C., 2001, “Thermodynamic Asymmetry in Time,” in E.N. Zalta (ed.), The Stanford Encyclopedia of Philosophy (Spring 2001 Edition), URL = <https://plato.stanford.edu/archives/win2001/entries/time-thermo/>. (Scholar)
- Chrusciel, P.T. and J. Isenberg, 1993, “Compact Cauchy
Horizons and Cauchy Surfaces,” in B.L. Hu and T.A. Jacobson
(eds.), Papers in Honor of Dieter Brill: Directions in General
Relativity (Volume 2), Cambridge: Cambridge University
Press, pp. 97–107. (Scholar)
- Davies, P., 2002a, How to Build a Time Machine, London:
Viking Penguin. (Scholar)
- –––, 2002b, “How to Build a Time
Machine,” Scientific American, 287(3): 50–55. (Scholar)
- Deutsch, D., 1991, “Quantum Mechanics Near Closed Timelike
Lines,” Physical Review D, 44: 3197–3217. (Scholar)
- Earman, J., 1995a, Bangs, Crunches, Whimpers, and Shrieks: Singularities and Acausalities in Relativistic Spacetimes, New York: Oxford University Press. (Scholar)
- –––, 1995b, “Recent Work on Time Travel,” in S.F. Savitt (ed.), Time’s Arrow Today: Recent Physical and Philosophical Work on the Direction of Time, Cambridge: Cambridge University Press, pp. 268–310. (Scholar)
- –––, 1995c, “Outlawing Time Machines: Chronology Protection Theorems,” Erkenntnis, 42: 125–139. (Scholar)
- –––, 1999, “The Penrose-Hawking Singularity Theorems: History and Implications,” in H. Goenner, J. Renn, and T. Sauer (eds.), The Expanding Worlds of General Relativity, Einstein Studies, Vol. 7, Boston: Birkhäuser, pp. 235–267. (Scholar)
- Earman, J., C. Smeenk, and C. Wüthrich, 2009, “Do the Laws of Physics Forbid the Operation of Time Machines?” Synthese, 169: 91–124. [Preprint available online] (Scholar)
- Geroch, R., 1977, “Prediction in General Relativity,”
in J. Earman, C. Glymour, and J. Stachel (eds.), Foundations of
Spacetime Theories (Minnesota Studies in the Philosophy of
Science: Volume VIII), Minneapolis, MN: University of Minnesota Press,
pp. 81–93. (Scholar)
- Gott, R., 2001, Time Travel in Einstein’s Universe, New
York: Houghton Mifflin. (Scholar)
- Greene, B., 2003, The Elegant Universe, New York:
W. W. Norton. (Scholar)
- Hawking, S.W., 1992a, “Chronology Protection
Conjecture,” Physical Review D, 46: 603–611. (Scholar)
- –––, 1992b, “The Chronology Protection
Conjecture,” in H. Sato and T. Nakamura (eds.), Proceedings
of the Sixth Marcel Grossmann Meeting on General Relativity,
Singapore: World Scientific, pp. 3–13. (Scholar)
- –––, 2001, “Chronology Protection: Making the
World Safe for Historians,” in S.W. Hawking et
al. (eds.), The Future of Spacetime, New York:
W.W. Norton, pp. 87–108. (Scholar)
- Hawking, S.W. and G.F.R. Ellis, 1973, The Large Scale
Structure of Space-Time, Cambridge: Cambridge University
Press. (Scholar)
- Hawking, S.W. and R. Penrose, 1970, “The Singularities of
Gravitational Collapse and Cosmology,” Proceedings of the
Royal Society of London A, 314: 529–548. (Scholar)
- Hoefer, C., 2003, “Causal Determinism,” in E.N. Zalta (ed.), The Stanford Encyclopedia of Philosophy (Spring 2003 Edition), URL = <https://plato.stanford.edu/archives/spr2003/entries/determinism-causal/>. (Scholar)
- Hounnonkpe, R.A. and E. Minguzzi, 2019, “Globally Hyperbolic Spacetimes Can Be Defined Without the ‘Causal’ Condition,” Classical and Quantum Gravity, 36: 197001. (Scholar)
- Kay, B.S., M.J. Radzikowski, and R.M. Wald, 1997, “Quantum
Field Theory On Spacetimes with Compactly Generated Cauchy
Horizons,” Communications in Mathematical Physics, 183:
533–556. (Scholar)
- Keller, S. and M. Nelson, 2001, “Presentists Should Believe in Time-Travel,” Australasian Journal of Philosophy, 79: 333–345. (Scholar)
- Krasnikov, S., 1999, “Time Machines with Non-Compactly
Generated Cauchy Horizons and ‘Handy
Singularities’,” in T. Piran and R. Ruffini
(eds.), Proceedings of the Eighth Marcel Grossmann Meeting on
General Relativity, Singapore: World
Scientific, pp. 593–595.
[Preprint available online.] (Scholar)
- –––, 2002, “No Time Machines in Classical General
Relativity,” Classical and Quantum Gravity, 19:
4109–4129.
[Preprint available online.] (Scholar)
- –––, 2009, “Even the Minkowski space is
holed.” Physical Review D, 79: 124041. (Scholar)
- –––, 2014a, “Corrigendum: No Time machines in
Classical General Relativity,” Classical and Quantum
Gravity, 31: 079503. (Scholar)
- –––, 2014b, “Time Machines with the Compactly
Determined Cauchy Horizon,” Physical Review D, 90:
024067.
[Preprint available online.] (Scholar)
- Malament, D.B., 1977, “The class of continuous timelike
curves determines the topology of spacetime,” Journal of
Mathematical Physics, 18: 1399–1404. (Scholar)
- Manchak, J.B., 2009a, “Is Spacetime Hole-Free?’ General Relativity and Gravitation, 41: 1639–1643 (Scholar)
- –––, 2009b, “On the Existence of
‘Time Machines,” in General
Relativity,” Philosophy of Science, 76: 1020–1026. (Scholar)
- –––, 2011a, “No no-go: A remark on time machines,” Studies in History and Philosophy of Modern Physics, 42: 74–76. (Scholar)
- –––, 2011b, “What is a Physically Reasonable Space-Time?” Philosophy of Science, 78: 410–420. (Scholar)
- –––, 2014a, “Time (hole?) machines,” Studies in History and Philosophy of Modern Physics, 48: 124–127. (Scholar)
- –––, 2014b, “On Space-Time Singularities, Holes, and Extensions,” Philosophy of Science, 81: 1066–1076. (Scholar)
- –––, 2019, “A Remark on ‘Time
Machines’ in Honor of Howard Stein,” Studies in
History and Philosophy of Modern Physics, 67: 111–116. (Scholar)
- Minguzzi, E., 2012, “Causally Simple Inextendible Spacetimes
are Hole-Free,” Journal of Mathematical Physics, 53:
062501. (Scholar)
- Monton, B., 2003, “Presentists Can Believe in Closed Timelike Curves,” Analysis, 63: 199–202. (Scholar)
- Morris, M.S. and K.S. Thorne, 1988, “Wormholes in Spacetime
and Their Use for Interstellar Travel: A Tool for Teaching General
Relativity,” American Journal of Physics, 56:
395-412. (Scholar)
- Morris, M.S., K.S. Thorne, and U. Yurtsever, 1988,
“Wormholes, Time Machines, and the Weak Energy
Condition,” Physical Review Letters, 61:
1446-1449. (Scholar)
- Nahin, P.J., 1999, Time Machines: Time Travel in Physics, Metaphysics, and Science Fiction, New York: AIP Press, Springer. (Scholar)
- Norton, J., 2008, “The Hole Argument,” in E.N. Zalta (ed.), The Stanford Encyclopedia of Philosophy (Spring 2008 Edition), URL = <https://plato.stanford.edu/archives/spr2008/entries/spacetime-holearg/>. (Scholar)
- Ori, A., 1993, “Must Time-Machine Construction Violate the
Weak Energy Condition?” Physical Review Letters, 71:
2517-2520. (Scholar)
- Politzer, H.D., 1992, “Simple Quantum Systems in Spacetimes
with Closed Timelike Curves,” Physical Review D, 46:
4470–4476. (Scholar)
- Rovelli, C., 2004, Quantum Gravity, Cambridge: Cambridge University Press. (Scholar)
- Smeenk, C. and C. Wüthrich, 2010, “Time Travel and Time Machines”, forthcoming in C. Callender (ed.), The Oxford Handbook of Time, Oxford: Oxford University Press. (Scholar)
- Visser, M., 1997, “The Reliability Horizon for
Semi-Classical Quantum Gravity: Metric Fluctuations Are Often More
Important than Back-Reaction,” Physics Letters B, 115:
8-14. (Scholar)
- –––, 2003, “The Quantum Physics of Chronology
Protection,” in G.W. Gibbons, E.P.S. Shellard, S.J. Rankin
(eds.), The Future of Theoretical Physics and Cosmology:
Celebrating Stephen Hawking’s 60th Birthday,
Cambridge: Cambridge University Press, pp. 161–176. (Scholar)
- Visser, M. and C. Barcelo, 2000, “Energy conditions and
their cosmological implications,” in U. Cotti, R. Jeannerot,
G. Senjanović, and A. Smirnov (eds.),
Proceedings of the Third International Workshop on
Particle Physics and the Early Universe (COSMO-99),
Singapore: World Scientific, pp. 99–112.
[Preprint available online.] (Scholar)
- Vollick, D.N., 1997, “How to Produce Exotic Matter Using
Classical Fields,” Physical Review D, 56:
4720–4723. (Scholar)
- Wald, R.M., 1984, General Relativity, Chicago: University
of Chicago Press. (Scholar)
- –––, 1994, Quantum Field Theory in Curved Spacetime and
Black Hole Thermodynamics, Chicago: University of Chicago
Press. (Scholar)
- –––, 1998, “Gravitational Collapse and Cosmic
Censorship,” in B.R. Iyer, and B. Bhawal (eds.), Black
Holes, Gravitational Radiation and the Universe: Essays in Honor of
C. V. Vishveshwara, Dordrecht: Kluwer Academic
Publishers, pp. 69–85.
[Preprint available online.] (Scholar)
- Wells, H.G., 1931, The Time Machine, New York: Random
House. (Scholar)
- Zwiebach, B., 2004, A First Course on String
Theory, Cambridge: Cambridge University Press. (Scholar)