The grandfather paradox is a proposed paradox of time travel first described by the science fiction writer René Barjavel in his 1943 book Le Voyageur Imprudent (Future Times Three). The paradox is described as follows: the time traveller went back in time to the time when his grandfather had not married yet and killed him. As a result, the time traveller was never born when he was meant to be. If he was never born, then he is unable to travel through time and kill his grandfather, which means the traveller would be born after all, and so on.
Despite the name, the grandfather paradox does not exclusively regard the impossibility of one's own birth. Rather, it regards any action that makes impossible the ability to travel back in time in the first place. The paradox's namesake example is merely the most commonly thought of when one considers the whole range of possible actions. Another example would be using scientific knowledge to invent a time machine, then going back in time and (whether through murder or otherwise) impeding a scientist's work that would eventually lead to the very information that you used to invent the time machine. An equivalent paradox is known (in philosophy) as autoinfanticide, going back in time and killing oneself as a baby.
Assuming the causal link between the time traveller's present and future, the grandfather paradox that disrupts that link may be regarded as impossible (thus precluding the arbitrary alteration of one's fate). However, a number of hypotheses have been postulated to avoid the paradox, such as the idea that the past is unchangeable, so the grandfather must have already survived the attempted killing (as stated earlier); or the time traveller creates—or joins—an alternate timeline or parallel universe in which the traveller was never born.
A variant of the grandfather paradox is the Hitler paradox or Hitler's murder paradox, a fairly frequent trope in science fiction, in which the protagonist travels back in time to murder Adolf Hitler before he can instigate World War II. Rather than necessarily physically preventing time travel, the action removes any reason for the travel, along with any knowledge that the reason ever existed, thus removing any point in travelling in time in the first place. Additionally, the consequences of Hitler's existence are so monumental and all-encompassing that for anyone born in the decades after World War II, it is likely that the grandfather paradox would directly apply in some way (due to the fact that practically anyone born after World War II likely had their birth influenced in some way by its effects).
- 1 Scientific theories
- 2 Theories in science fiction
- 3 Other considerations
- 4 See also
- 5 References
- 6 External links
Novikov self-consistency principle
The Novikov self-consistency principle expresses one view on how backwards time travel could be possible without a danger of paradoxes. According to this hypothesis, the only possible time lines are those entirely self-consistent—so anything a time traveler does in the past must have been part of history all along, and the time traveler can never do anything to prevent the trip back in time from happening, since this would represent an inconsistency. Nicholas J. J. Smith argues, for example, that if some time traveler killed the child who lived in his old address, this would ipso facto necessitate that the child was not the time traveler's younger self, nor the younger self of anyone alive in the time frame that the time traveler came from. This could be extrapolated further into the possibility that the child's death led to the family moving away, which in turn led to the time traveler's family moving into the house guaranteeing that the house later became the home the time traveler would then grow up in, forming a predestination paradox.
Seth Lloyd and other researchers at MIT have proposed an expanded version of the Novikov principle, according to which probability bends to prevent paradoxes from occurring. Outcomes would become stranger as one approaches a forbidden act, as the universe must favor improbable events to prevent impossible ones.
It might be argued that the ordinary concept of human "free will" is equivalent to this sort of time-travel paradox, for if one could travel back in time to change a future relative to that past space time interval, then how would that be distinguishable, in principle, from the everyday choices and decisions considered to be freely made within any space time frame taken as the "present"?
One might build a more plausible case for the prohibition of classical time-travel simply by considering how it might violate several conservation laws by the duplication of matter along a single space time line and perhaps require a near-universal redistribution of mass-energy.
There could be "an ensemble of parallel universes" such that when the traveler kills the grandfather, the act took place in (or resulted in the creation of) a parallel universe where the traveler's counterpart never exists as a result. However, his prior existence in the original universe is unaltered. Succinctly, this explanation states that: if time travel is possible, then multiple versions of the future exist in parallel universes. This theory would also apply if a person went back in time to shoot himself, because in the past he would be dead as in the future he would be alive and well.
Examples of parallel universes postulated in physics are:
- In quantum mechanics, the many-worlds interpretation suggests that every seemingly random quantum event with a non-zero probability actually occurs in all possible ways in different "worlds", so that history is constantly branching into different alternatives. The physicist David Deutsch has argued that if backwards time travel is possible, it should result in the traveler ending up in a different branch of history than the one he departed from. See also quantum suicide and immortality.
- M-theory is put forward as a hypothetical master theory that unifies the six superstring theories, although at present it is largely incomplete. One possible consequence of ideas drawn from M-theory is that multiple universes in the form of 3-Dimensional membranes known as branes could exist side-by-side in a fourth large spatial dimension (which is distinct from the concept of time as a fourth dimension)—see Brane cosmology. However, there is currently no argument from physics that there would be one brane for each physically possible version of history as in the many-worlds interpretation, nor is there any argument that time travel would take one to a different brane.
According to this theory, if someone were to do something in the past that would cause their nonexistence, upon returning to the future, they would find themselves in a world where the effects of (and chain reactions thereof) their actions are not present, as the person never existed. Through this theory, they would still exist, though. Two well-known examples of this are found in It's A Wonderful Life and Roswell that ends well.
Theories in science fiction
Parallel universes resolution
The idea of preventing paradoxes by supposing that the time traveller is taken to a parallel universe while his original history remains intact, which is discussed above in the context of science, is also common in science fiction—see Time travel as a means of creating historical divergences.
Restricted action resolution
Another resolution, of which the Novikov self-consistency principle can be taken as an example, holds that if one were to travel back in time, the laws of nature (or other intervening cause) would simply forbid the traveler from doing anything that could later result in their time travel not occurring. For example, a shot fired at the traveler's grandfather misses, or the gun jams or misfires, or the grandfather is injured but not killed, or the person killed turns out to be not the real grandfather—or some other event prevents the attempt from succeeding. No action the traveler takes to affect or change history can ever succeed, as some form of "bad luck" or coincidence always prevents the outcome. In effect, the traveler cannot change history. Often in fiction, the time traveler does not merely fail to prevent the actions, but in fact precipitates them (see predestination paradox), usually by accident.
This theory might lead to concerns about the existence of free will (in this model, free will may be an illusion, or at least not unlimited). This theory also assumes that causality must be constant: i.e. that nothing can occur in the absence of cause, whereas some theories hold that an event may remain constant even if its initial cause was subsequently eliminated.
Closely related but distinct is the notion of the time line as self-healing. The time-traveler's actions are like throwing a stone in a large lake; the ripples spread, but are soon swamped by the effect of the existing waves. For instance, a time traveler could assassinate a politician who led his country into a disastrous war, but the politician's followers would then use his murder as a pretext for the war, and the emotional effect of that would cancel out the loss of the politician's charisma. Or the traveler could prevent a car crash from killing a loved one, only to have the loved one killed by a mugger, or fall down the stairs, choke on a meal, killed by a stray bullet, etc. In the 2002 film The Time Machine, this scenario is shown where the main character builds a time machine to save his fiance from being killed by a mugger, only for her to die in a car crash instead; as he learns from a trip to the future, he cannot save her with the machine or he would never have been inspired to build the machine so that he could go back and save her in the first place. In some stories it is only the event that precipitated the time traveler's decision to travel back in time that cannot be substantially changed, in others all attempted changes "heal" in this way, and in still others the universe can heal most changes but not sufficiently drastic ones. This is also the explanation advanced by the Doctor Who role-playing game, which supposes that Time is like a stream; you can dam it, divert it, or block it, but the overall direction resumes after a period of conflict.
It also may not be clear whether the time traveler altered the past or precipitated the future he remembers, such as a time traveler who goes back in time to persuade an artist— whose single surviving work is famous— to hide the rest of the works to protect them. If, on returning to his time, he finds that these works are now well-known, he knows he has changed the past. On the other hand, he may return to a future exactly as he remembers, except that a week after his return, the works are found. Were they actually destroyed, as he believed when he traveled in time, and has he preserved them? Or was their disappearance occasioned by the artist's hiding them at his urging, and the skill with which they were hidden, and so the long time to find them, stemmed from his urgency?
Bad Wolf Resolution
A resolution to the Hitler's Murder paradox is that the murderer traveled back in time in order to kill Hitler because he discovered a note telling him to do so. Then after killing Hitler, the murderer writes a note to himself telling him to travel back in time to kill Hitler. This results in the murderer effectively writing a note to his relative past self. A more well known example is the Doctor Who story arc of the same name.
Some science fiction stories suggest that any paradox would destroy the universe, or at least the parts of space and time affected by the paradox. The plots of such stories tend to revolve around preventing paradoxes, such as the final episode of Star Trek: The Next Generation.
A less destructive alternative of this theory suggests the death of the time traveler whether the history is altered or not; an example would be in the first part of the Back to the Future trilogy, where the lead character's alteration of history results in a risk of his own disappearance, and he has to fix the alteration to preserve his own existence. In this theory, killing one's grandfather would result in the disappearance of oneself, history would erase all traces of the person's existence, and the death of the grandfather would be caused by another means (say, another existing person firing the gun); thus, the paradox would never occur from a historical viewpoint.
Temporal Modification Negation Theory
While stating that if time travel is possible it would be impossible to violate the grandfather paradox, it goes further to state that any action taken that itself negates the time travel event cannot occur. The consequences of such an event would in some way negate that event, be it by either voiding the memory of what one is doing before doing it, by preventing the action in some way, or even by destroying the universe among other possible consequences. It states therefore that to successfully change the past one must do so incidentally.
For example, if one tried to stop the murder of one's parents, he would fail. On the other hand, if one traveled back and did something else that as a result prevented the death of someone else's parents, then such an event would be successful, because the reason for the journey and therefore the journey itself remains unchanged preventing a paradox.
In addition, if this event had some colossal change in the history of mankind, and such an event would not void the ability or purpose of the journey back, it would occur, and would hold. In such a case, the memory of the event would immediately be modified in the mind of the time traveler.
An example of this would be for someone to travel back to observe life in Austria in 1887 and while there shoot five people, one of which was one of Hitler's parents. Hitler would therefore never have existed, but since this would not prevent the invention of the means for time travel, or the purpose of the trip, then such a change would hold. But for it to hold, every element that influenced the trip must remain unchanged. The Third Reich would not exist and the world we know today would be completely different. This would void someone convincing another party to travel back to kill the people without knowing who they are and making the time line stick, because by being successful, they would void the first party's influence and therefore the second party's actions.
These issues are treated humorously in an episode of Futurama in which Fry travels back in time and inadvertently causes his grandfather Enis's death before Enis marries his grandmother. Fry's distraught grandmother then seduces him, and Fry learns that he is his own grandfather.
Consideration of the grandfather paradox has led some to the idea that time travel is by its very nature paradoxical and therefore logically impossible, on the same order as round squares. For example, the philosopher Bradley Dowden made this sort of argument in the textbook Logical Reasoning, where he wrote:
|“||Nobody has ever built a time machine that could take a person back to an earlier time. Nobody should be seriously trying to build one, either, because a good argument exists for why the machine can never be built. The argument goes like this: suppose you did have a time machine right now, and you could step into it and travel back to some earlier time. Your actions in that time might then prevent your grandparents from ever having met one another. This would make you not born, and thus not step into the time machine. So, the claim that there could be a time machine is self-contradictory.||”|
But, some philosophers and scientists believe that time travel into the past need not be logically impossible provided that there is no possibility of changing the past, as suggested, for example, by the Novikov self-consistency principle. Bradley Dowden himself revised the view above after being convinced of this in an exchange with the philosopher Norman Swartz.
Consideration of the possibility of backwards time travel in a hypothetical universe described by a Gödel metric led famed logician Kurt Gödel to assert that time might itself be a sort of illusion. He seems to have been suggesting something along the lines of the block time view in which time does not really "flow" but is just another dimension like space, with all events at all times being fixed within this 4-dimensional "block".
- Chicken or the egg
- Chronology protection conjecture
- Ontological paradox
- Temporal paradox
- Time loop
- Time travel in fiction
- "Cradle of Darkness"
- Making History
- The Primal Solution
- Barjavel, René (1943). Le voyageur imprudent ("The imprudent traveller").; actually, the book refers to an ancestor of the time traveller not his grandfather.
- Horwich, Paul (1987). Asymmetries in Time. Cambridge, MIT Press. p. 116.
When the term was coined by Paul Horwich, he used the term autofanticide.
- See also Alfred Bester, The Men Who Murdered Mohammed, published in 1958, just the year following Everett's Ph.D thesis
- Eugenia Williamson (6 April 2013). "Book review : Life after Life’ by Kate Atkinson". The Boston Globe. Retrieved 9 August 2013. "Google the phrase “go back in time and,” and the search engine will suggest completing the phrase with a simple directive: “kill Hitler.” The appeal of murdering the Nazi dictator is so great that it has its own subgenre within speculative fiction, a trope known as “Hitler’s murder paradox” in which a time traveler journeys back far enough to nip the leader — and World War II — in the bud, typically with unexpected consequences."
- Brennan, J. (2002). Time Travel: A New Perspective. Llewellyn Publications. p. 23. ISBN 9781567180855. "A variation on the grandfather paradox . . . is the Hitler paradox. In this one you travel back in time to murder Hitler before he starts the Second World War, thus saving millions of lives. But if you murder Hitler in, say, 1938, then the Second World War will never come about and you will have no reason to travel back in time to murder Hitler!"
- Esther Inglis-Arkell (2012). "Are we running out of time to kill Hitler via time travel?". io9. Retrieved 2013-08-12.
- Laura Sanders, "Physicists Tame Time Travel by Forbidding You to Kill Your Grandfather", Wired, 20 July 2010. "But this dictum against paradoxical events causes possible but unlikely events to happen more frequently. 'If you make a slight change in the initial conditions, the paradoxical situation won’t happen. That looks like a good thing, but what it means is that if you’re very near the paradoxical condition, then slight differences will be extremely amplified,' says Charles Bennett of IBM’s Watson Research Center in Yorktown Heights, New York."
- Seth Lloyd et al., "The quantum mechanics of time travel through post-selected teleportation", arXiv.org, submitted 15 July 2010, revised 19 July 2010.
- Deutsch, David (1991). "Quantum mechanics near closed timeline curves". Physical Review D 44 (10): 3197–3217. Bibcode:1991PhRvD..44.3197D. doi:10.1103/PhysRevD.44.3197.
- "Dowden-Swartz Exchange".
- Yourgrau, Palle (2004). A World Without Time: The Forgotten Legacy Of Godel And Einstein. Basic Books. ISBN 0-465-09293-4.
- Holt, Jim (2005-02-21). "Time Bandits". The New Yorker. Retrieved 2006-10-19.