From Eternity to Here (84 page)
Proust, M.
Swann’s Way: In Search of Lost Time
, vol. 1 (
Du côté de chez Swann: À la recherche du temps perdu
). Translated by L. Davis. New York: Penguin Classics, 2004.
Putnam, H. “It Ain’t Necessarily So.”
Journal of Philosophy
59, no. 22 (1962): 658-71.
Pynchon, T.
Slow Learner.
Boston: Back Bay Books, 1984.
Randall, L.
Warped Passages: Unraveling the Mysteries of the Universe’s Hidden Dimensions.
New York: HarperCollins, 2005.
Regis, E.
What Is Life?: Investigating the Nature of Life in the Age of Synthetic Biology.
Oxford: Oxford University Press, 2009.
Reichenbach, H.
The Direction of Time.
Mineola: Dover, 1956.
Reichenbach, H.
The Philosophy of Space and Time.
Mineola: Dover, 1958.
Reid, M. J. “Is There a Supermassive Black Hole at the Center of the Milky Way?” (2008).
http://arxiv.org/abs/0808.2624
.
Reznik, B., and Aharonov, Y. “Time-Symmetric Formulation of Quantum Mechanics.”
Physical Review A
52 (1995): 2538-50.
Ridderbos, K., ed.
Time: The Darwin College Lectures.
Cambridge: Cambridge University Press, 2002.
Riess, A., et al., Supernova Search Team. “Observational Evidence from Supernovae for an Accelerating Universe and a Cosmological Constant.”
Astronomical Journal
116 (1998): 1009-38.
Rouse Ball, W. W.
A Short Account of the History of Mathematics
, 4th ed., reprinted 2003. Mineola, NY: Dover, 1908.
Rovelli, C. “Forget Time” (2008).
http://arxiv.org/abs/0903.3832
.
Rowling, J. K.
Harry Potter and the Half-Blood Prince
. New York: Scholastic, 2005.
Rukeyser, M.
Willard Gibbs.
Woodbridge: Ox Bow Press, 1942.
Sagan, C.
Contact
. New York: Simon and Schuster, 1985.
Savitt, S. F., ed.
Time’s Arrows Today: Recent Physical and Philosophical Work on the Direction of Time
. Cambridge: Cambridge University Press, 1997.
Schacter, D. L., Addis, D. R., and Buckner, R. L. “Remembering the Past to Imagine the Future: The Prospective Brain.”
Nature Reviews Neuroscience
8 (2007): 657-61.
Schlosshauer, M. “Decoherence, the Measurement Problem, and Interpretations of Quantum Mechanics.”
Reviews of Modern Physics
76 (2004): 1267-1305.
Schneider, E. D., and Sagan, D.
Into the Cool: Energy Flow, Thermodynamics, and Life.
Chicago: University of Chicago Press, 2005.
Schrödinger, E.
What Is Life?
Cambridge: Cambridge University Press, 1944.
Seife, C.
Decoding the Universe: How the New Science of Information Is Explaining Everything in the Cosmos, from Our Brains to Black Holes.
New York: Viking, 2006.
Sethna, J. P.
Statistical Mechanics: Entropy, Order Parameters, and Complexity.
Oxford: Oxford University Press, 2006.
Shalizi, C. R.
Notebooks
(2009).
http://www.cscs.umich.edu/~crshalizi/notebooks/
.
Shannon, C. E. “A Mathematical Theory of Communication.”
Bell System Technical Journal
27 (1948): 379- 423 and 623-56.
Singh, S.
Big Bang: The Origin of the Universe
. New York: Fourth Estate, 2004.
Sklar, L.
Physics and Chance: Philosophical Issues in the Foundations of Statistical Mechanics.
Cambridge: Cambridge University Press, 1993.
Smolin, L.
The Life of the Cosmos
. Oxford: Oxford University Press, 1993.
Snow, C.P.
The Two Cultures
. Cambridge: Cambridge University Press, 1998.
Sobel, D.
Longitude: The True Story of a Lone Genius Who Solved the Greatest Scientific Problem of His Time.
New York: Penguin, 1995.
Spergel, D. N., et al., WMAP Collaboration. “First Year Wilkinson Microwave Anisotropy Probe (WMAP) Observations: Determination of Cosmological Parameters.”
Astrophysical Journal Supplement
148 (2003): 175.
Steinhardt, P. J., and Turok, N. “Cosmic Evolution in a Cyclic Universe.”
Physical Review D
65 (2002): 126003.
Steinhardt, P. J., and Turok, N.
Endless Universe: Beyond the Big Bang
. New York: Doubleday, 2007.
Stoppard, T.
Arcadia
, in
Plays: Five
. London: Faber and Faber, 1999.
Strominger, A., and Vafa, C. “Microscopic Origin of the Bekenstein-Hawking Entropy.”
Physics Letters B
379 (1996): 99-104.
Styer, D. F. “Entropy and Evolution.”
American Journal of Physics
76 (2008): 1031-33.
Susskind, L. “The World as a Hologram.”
Journal of Mathematical Physics
36 (1995): 6377-96.
Susskind, L.
The Cosmic Landscape: String Theory and the Illusion of Intelligent Design.
New York: Little, Brown, 2006.
Susskind, L.
The Black Hole War: My Battle with Stephen Hawking to Make the World Safe for Quantum Mechanics.
New York: Little, Brown, 2008.
Susskind, L., and Lindesay, J.
An Introduction to Black Holes, Information, and the String Theory Revolution: The Holographic Universe.
Singapore: World Scientific, 2005.
Susskind, L., Thorlacius, L., and Uglum, J. “The Stretched Horizon and Black Hole Complementarity.”
Physical Review D
48 (1993): 3743-61.
Swinburne, R.
The Existence of God.
Oxford: Oxford University Press, 2004.
’t Hooft, G. “Causality in (2+1)-Dimensional Gravity.”
Classical and Quantum Gravity
9 (1992): 1335-48.
’t Hooft, G. “Dimensional Reduction in Quantum Gravity.” In
Salamfestschrift: a Collection of Talks
, edited by A. Ali, J. Ellis, and S. Randjbar-Daemi. Singapore: World Scientific, 1993.
Tegmark, M. “The Interpretation of Quantum Mechanics: Many Worlds or Many Words?”
Fortschritte der Physik
46 (1998): 855-62.
Thomson, W. “On the Age of the Sun’s Heat.”
Macmillan’s
5 (1862): 288-93.
Thorne, K. S.
Black Holes and Time Warps: Einstein’s Outrageous Legacy
. New York: W. W. Norton, 1994.
Tipler, F. J. “Rotating Cylinders and the Possibility of Global Causality Violation.”
Physical Review D
9 (1974): 2203-6.
Tipler, F. J. “Singularities and Causality Violation.”
Annals of Physics
108 (1977): 1-36.
Tolman, R. C. “On the Problem of Entropy of the Universe as a Whole.”
Physical Review
37 (1931): 1639-60.
Toomey, D.
The New Time Travelers: A Journey to the Frontiers of Physics.
New York: W. W. Norton, 2007.
Toulmin, S. “The Early Universe: Historical and Philosophical Perspectives.” In
The Early Universe
, Proceedings of the NATO Advanced Study Institute, held in Victoria, Canada, Aug. 17-30, 1986, edited by W. G. Unruh and G. W. Semenoff, 393. Dortrecht: D. Reidel, 1988.
Tribus, M., and McIrvine, E. “Energy and Information.”
Scientific American
(August 1971): 179.
Ufflink, J. “Boltzmann’s Work in Statistical Physics.”
The Stanford Encyclopedia of Philosophy
(Winter 2008 edition), edited by Edward N. Zalta (2004).
http://plato.stanford.edu/archives/win2008/entries/statphys-Boltzmann/
.
Vilenkin, A. “The Birth of Inflationary Universes.”
Physical Review D
27 (1983): 2848-55.
Vilenkin, A. “Eternal Inflation and Chaotic Terminology” (2004).
http://arxiv.org/abs/
gr-qc/0409055.
Vilenkin, A.
Many Worlds in One: The Search for Other Universes.
New York: Hill and Wang, 2006.
Viola, F.
From Eternity to Here: Rediscovering the Ageless Purpose of God.
Colorado Springs: David C. Cook, 2009.
Von Baeyer, H. C.
Warmth Disperses and Time Passes: The History of Heat.
New York: Modern Library, 1998.
Von Baeyer, H. C.
Information: The New Language of Science
. Cambridge, MA: Harvard University Press, 2003.
Vonnegut, K.
Slaughterhouse-Five
. New York: Dell, 1969.
Wald, R. W. “Asymptotic Behavior of Homogeneous Cosmological Models in the Presence of a Positive Cosmological Constant.” Physical
Review D
28 (1983): 2118-20.
Weinberg, S.
The First Three Minutes: A Modern View of the Origin of the Universe.
New York: Basic Books, 1977.
Weiner, J.
Time, Love, Memory: A Great Biologist and His Quest for the Origins of Behavior.
New York: Vintage, 1999.
Wells, H. G.
The Time Machine
. Reprinted in
The Complete Science Fiction Treasury of H. G. Wells
(1978). New York: Avendel, 1895.
West, G. B., Brown, J. H., and Enquist, B. J. “The Fourth Dimension of Life: Fractal Geometry and the Allo- metric Scaling of Organisms.”
Science
284 (1999): 1677-79.
Wheeler, J. A. “Time Today.” In
Physical Origins of Time Asymmetry
, edited by J. J. Halliwell, J. Pérez-Mercader, and W. H. Zurek, 1-29. Cambridge: Cambridge University Press, 1994.
Wiener, N.
Cybernetics: or the Control and Communication in the Animal and the Machine
. Cambridge, MA: MIT Press, 1961.
Wikipedia contributors. “Time.”
Wikipedia, The Free Encyclopedia
.
http://en.wikipedia.org/wiki/Time
(accessed January 6, 2009).
Wright, E. L. “Errors in the Steady State and Quasi-SS Models” (2008).
http://www.astro.ucla.edu/~wright/stdystat.htm
.
Wu, C. S., Ambler, E., Hayward, R. W., Hoppes, D. D., and Hudson, R. P. “Experimental Test of Parity Non-conservation in Beta Decay.”
Physical Review
105 (1957). 1413-15.
Zeh, H. D.
The Physical Basis of The Direction of Time
. Berlin: Springer-Verlag, 1989.
Zermelo, E. “Über einen Satz der Dynamik und die mechanische Warmtheorie.”
Annalen der Physik
57 (1896a): 485. Translated in Brush (2003) as “On a Theorem of Dynamics and the Mechanical Theory of Heat,” 382.
Zermelo, E. “Über mechanische Erklärungen irreversibler Vorgänge.”
Annalen der Physik
59 (1896b): 793. Translated in Brush (2003) as “On the Mechanical Explanation of Irreversible Processes,” 403.
Zurek, W. H. “Entropy Evaporated by a Black Hole.”
Physical Review Letters
49 (1982): 1683-86.
Zurek, W. H.
Complexity, Entropy, and the Physics of Information.
Boulder: Westview Press, 1990.
ACKNOWLEDGMENTS
Shepherding a book from conception to publication is a remarkably collaborative effort, and there are many people who deserve thanks for helping me along the way. While this book was in its very early stages, I had the good fortune to meet, fall in love with, and marry a person who just happened to be an extraordinarily talented science writer. All the thanks I can give to Jennifer Ouellette, who improved the book immensely and made the journey worthwhile.
I sent drafts of the manuscript to a large number of my friends, and they responded with remarkably good humor and irritatingly sensible suggestions for improvement. Enormous thanks to Scott Aaronson, Allyson Beatrice, Jennie Chen, Stephen Flood, David Grae, Lauren Gunderson, Robin Hanson, Matt Johnson, Chris Lackner, Tom Levenson, Karen Lorre, George Musser, Huw Price, Ted Pyne, Mari Ruti, Alex Singer, and Mark Trodden, for keeping me honest along the way. I suspect most of them will be writing books of their own in the near future, and I’ll be happy to read all of them.
I’ve been talking about the arrow of time and other issues contained herein with my fellow scientists for years now, and it’s impossible to disentangle who made what contribution to my thinking. In addition to the readers mentioned above, I’d like to thank Anthony Aguirre, David Albert, Andreas Albrecht, Tom Banks, Raphael Bousso, Eddie Farhi, Brian Greene, Jim Hartle, Kurt Hinterbichler, Tony Leggett, Andrei Linde, Laura Mersini, Ken Olum, Don Page, John Preskill, Iggy Sawicki, Cosma Shalizi, Mark Srednicki, Kip Thorne, Alex Vilenkin, and Robert Wald (plus others I’ve doubtless shamefully forgotten) for conversations over the years. I’d like to offer special thanks to Jennie Chen, who not only read the manuscript carefully but was a valued collaborator when I first started taking the arrow of time seriously.
More recently, I’ve been a neglectful collaborator myself, as I worked to finish this book while my colleagues forged ahead on our research projects. So thanks/ apologies to Lotty Ackerman, Matt Buckley, Claudia de Rham, Tim Dulaney, Adrienne Erickcek, Moira Gresham, Matt Johnson, Marc Kamionkowski, Sonny Mantry, Michael Ramsey-Musolf, Lisa Randall, Heywood Tam, Chien-Yao Tseng, Ingunn Wehus, and Mark Wise, for putting up with me in recent days when my attention wasn’t always fully on the task at hand.
Katinka Matson and John Brockman were instrumental in turning my original notions into a sensible idea for a book, and generally in making things happen. I first met my editor Stephen Morrow years before this book was conceived, and it was a pleasure to get the chance to work with him. Jason Torchinsky took my meager sketches and turned them into compelling illustrations. Somehow Michael Bérubé, through the mediation of Elliot Tarabour, managed to offer a review of the book before it was actually written. But for a work about the nature of time, what else should we expect?
I’m the kind of person who grows restless working at home or in the office for too long, so I frequently gather up my physics books and papers and bring them to a restaurant or coffee shop for a change of venue. Almost inevitably, a stranger will ask me what it is I’m reading, and—rather than being repulsed by all the forbidding math and science—follow up with more questions about cosmology, quantum mechanics, the universe. At a pub in London, a bartender scribbled down the ISBN number of Scott Dodelson’s
Modern Cosmology
; at the Green Mill jazz club in Chicago, I got a free drink for explaining dark energy. I would like to thank every person who is not a scientist but maintains a sincere fascination with the inner workings of Nature, and is willing to ask questions and mull over the answers. Thinking about the nature of time might not help us build better TV sets or lose weight without exercising, but we all share the same universe, and the urge to understand it is part of what makes us human.
