physics, a wormhole is a hypothetical topological feature of spacetimethat is fundamentally a 'shortcut' through spaceand time. Spacetimecan be viewed as a 2D surface, and when 'folded' over, a wormhole bridge can be formed. A wormhole has at least two mouths which are connected to a single throat or tube. If the wormhole is traversable, matter can 'travel' from one mouth to the other by passing through the throat. While there is no observational evidence for wormholes, spacetimes-containing wormholes are known to be valid solutions in general relativity.
The term "wormhole" was coined by the American
theoretical physicistJohn Wheeler in 1957. However, the idea of wormholes was theorized already in 1921 by the German mathematician Hermann Weylin connection with his analysis of mass in terms of electromagnetic fieldenergy. [Coleman, Korte, "Hermann Weyl's Raum - Zeit - Materie and a General Introduction to His Scientific Work", p. 199]
The name "wormhole" comes from an analogy used to explain the phenomenon. If a worm is travelling over the skin of an apple, then the worm could take a shortcut to the opposite side of the apple's skin by burrowing through its center, rather than travelling the entire distance around, just as a wormhole traveler could take a shortcut to the opposite side of the
universethrough a topologically nontrivial tunnel.
The basic notion of an intra-universe wormhole is that it is a compact region of
spacetimewhose boundary is topologically trivial but whose interior is not simply connected. Formalizing this idea leads to definitions such as the following, taken from Matt Visser's "Lorentzian Wormholes".
:If a Minkowski
spacetimecontains a compact region Ω, and if the topology of Ω is of the form Ω ~ R x Σ, where Σ is a three-manifold of nontrivial topology, whose boundary has topology of the form dΣ ~ S2, and if, furthermore, the hypersurfaces Σ are all spacelike, then the region Ω contains a quasipermanent intra-universe wormhole.
Characterizing inter-universe wormholes is more difficult. For example, one can imagine a 'baby' universe connected to its 'parent' by a narrow 'umbilicus'. One might like to regard the umbilicus as the throat of a wormhole, but the space time is simply connected.
"Intra-universe wormholes" connect one location of a universe to another location of the same universe (in the same present time or unpresent). A wormhole should be able to connect distant locations in the universe by creating a shortcut through
spacetime, allowing travel between them that is faster than it would take light to make the journey through normal space. See the image above. "Inter-universe wormholes" connect one universe with another. [ [http://arxiv.org/abs/gr-qc/0009072 On a General Class of Wormhole Geometries] ] , [ [http://arxiv.org/abs/hep-th/0102143 Two Open Universes Connected by a Wormhole: Exact Solutions] ] This gives rise to the speculation that such wormholes could be used to travel from one parallel universe to another. A wormhole which connects (usually closed) universes is often called a Schwarzschild wormhole. Another application of a wormhole might be time travel. In that case, it is a shortcut from one point in space and time to another. In string theory, a wormhole has been envisioned to connect two D-branes, where the mouths are attached to the branes and are connected by a flux tube. [ [http://arxiv.org/abs/gr-qc/0205055 Strings in the Einstein's paradigm of matter] ] Finally, wormholes are believed to be a part of spacetime foam. [ [http://arxiv.org/abs/gr-qc/0409015 How Spacetime Foam modifies the brick wall] ] There are two main types of wormholes: "Lorentzian wormholes" and "Euclidean wormholes". Lorentzian wormholes are mainly studied in general relativityand semiclassical gravity, while Euclidean wormholes are studied in particle physics. Traversable wormholes are a special kind of Lorentzian wormholes which would allow a human to travel from one side of the wormhole to the other. Serguei Krasnikovsuggested the term "spacetime shortcut" as a more general term for (traversable) wormholes and propulsion systems like the Alcubierre driveand the Krasnikov tube to indicate hyperfast interstellar travel
It is known that (Lorentzian) wormholes are not excluded within the framework of
general relativity, but the physical plausibility of these solutions is uncertain. It is also unknown whether a theory of quantum gravity, merging general relativity with quantum mechanics, would still allow them. Most known solutions of general relativity which allow for traversable wormholes require the existence of exotic matter, a theoretical substance which has negative energy density. However, it has not been mathematically proven that this is an absolute requirement for traversable wormholes, nor has it been established that exotic matter cannot exist.
Lorentzian wormholes known as Schwarzschild wormholes or Einstein-Rosen bridges are bridges between areas of space that can be modeled as
vacuum solutions to the Einstein field equationsby combining models of a black holeand a white hole. This solution was discovered by Albert Einsteinand his colleague Nathan Rosen, who first published the result in 1935. However, in 1962 John A. Wheeler and Robert W. Fullerpublished a paper showing that this type of wormhole is unstable, and that it will pinch off instantly as soon as it forms, preventing even light from making it through.
Before the stability problems of Schwarzschild wormholes were apparent, it was proposed that
quasars were white holes forming the ends of wormholes of this type.
While Schwarzschild wormholes are not traversable, their existence inspired
Kip Thorneto imagine traversable wormholes created by holding the 'throat' of a Schwarzschild wormhole open with exotic matter(material that has negative mass/energy).
Lorentzian traversable wormholes would allow travel from one part of the universe to another part of that same universe very quickly or would allow travel from one universe to another. The possibility of traversable wormholes in general relativity was first demonstrated by
Kip Thorneand his graduate student Mike Morrisin a 1988 paper; for this reason, the type of traversable wormhole they proposed, held open by a spherical shell of exotic matter, is referred to as a Morris-Thorne wormhole. Later, other types of traversable wormholes were discovered as allowable solutions to the equations of general relativity, including a variety analyzed in a 1989 paper by Matt Visser, in which a path through the wormhole can be made in which the traversing path does not pass through a region of exotic matter. However in the pure Gauss-Bonnet theory exotic matter is not needed in order for wormholes to exist- they can exist even with no matter [gr-qc/0701152 (January 2007) `Mass without mass' from thin shells in Gauss-Bonnet gravity Elias Gravanis and Steven Willison ] A type held open by negative mass cosmic strings was put forth by Visser in collaboration with Cramer "et al.", [John G. Cramer, Robert L. Forward, Michael S. Morris, Matt Visser, Gregory Benford, and Geoffrey A. Landis, " [http://www.arxiv.org/abs/astro-ph/9409051 Natural Wormholes as Gravitational Lenses] ," "Phys. Rev. D51" (1995) 3117-3120] , in which it was proposed that such wormholes could have been naturally created in the early universe.
Wormholes connect two points in
spacetime, which means that they would in principle allow travel in time as well as in space. In a 1988 paper, Morris, Thorne and YurtseverM. Morris, K. Thorne, and U. Yurtsever, [http://prola.aps.org/abstract/PRL/v61/i13/p1446_1 Wormholes, Time Machines, and the Weak Energy Condition] , " Physical Review, 61", 13, September 1988, pp. 1446 - 1449] worked out explicitly how to convert a wormhole traversing space into one traversing time.
Wormholes and faster-than-light travel
Special relativity only applies locally. Wormholes allow superluminal (
faster-than-light) travel by ensuring that the speed of light is not exceeded locally at any time. While traveling through a wormhole, subluminal (slower-than-light) speeds are used. If two points are connected by a wormhole, the time taken to traverse it would be less than the time it would take a light beam to make the journey if it took a path through the space "outside" the wormhole. However, a light beam traveling through the wormhole would always beat the traveler. As an analogy, running around to the opposite side of a mountain at maximum speed may take longer than walking through a tunnel crossing it. You can walk slowly while reaching your destination more quickly because the length of your path is shorter.
Wormholes and time travel
A wormhole could allow
time travel. This could be accomplished by accelerating one end of the wormhole to a high velocity relative to the other, and then sometime later bringing it back; relativistic time dilationwould result in the accelerated wormhole mouth aging less than the stationary one as seen by an external observer, similar to what is seen in the twin paradox. However, time connects differently through the wormhole than outside it, so that synchronized clocks at each mouth will remain synchronized to someone traveling through the wormhole itself, no matter how the mouths move around. This means that anything which entered the accelerated wormhole mouth would exit the stationary one at a point in time prior to its entry. For example, if clocks at both mouths both showed the date as 2000 before one mouth was accelerated, and after being taken on a trip at relativistic velocities the accelerated mouth was brought back to the same region as the stationary mouth with the accelerated mouth's clock reading 2005 while the stationary mouth's clock read 2010, then a traveler who entered the accelerated mouth at this moment would exit the stationary mouth when its clock also read 2005, in the same region but now five years in the past. Such a configuration of wormholes would allow for a particle's world lineto form a closed loop in spacetime, known as a closed timelike curve.
It is thought that it may not be possible to convert a wormhole into a time machine in this manner: some analyses using the semiclassical approach to incorporating quantum effects into general relativity indicate that a feedback loop of
virtual particles would circulate through the wormhole with ever-increasing intensity, destroying it before any information could be passed through it, in keeping with the chronology protection conjecture. This has been called into question by the suggestion that radiation would disperse after traveling through the wormhole, therefore preventing infinite accumulation. The debate on this matter is described by Kip S. Thorne in the book " Black Holes and Time Warps". There is also the Roman ring, which is a configuration of more than one wormhole. This ring seems to allow a closed time loop with stable wormholes when analyzed using semiclassical gravity, although without a full theory of quantum gravityit is uncertain whether the semiclassical approach is reliable in this case.
Theories of wormhole metrics describe the spacetime geometry of a wormhole and serve as theoretical models for time travel. An example of a (traversable) wormhole metric is the following:
One type of non-traversable wormhole metric is the
Wormholes in fiction
Wormholes are a popular feature of
science fictionas they allow interstellar (and sometimes interuniversal) travel within human timescales. It is common for the creators of a fictional universe to decide that faster-than-lighttravel is either impossible or that the technology does not yet exist, but to use wormholes as a means of allowing humans to travel long distances in short periods. Military science fiction (such as the "Wing Commander" games) often use a "jump drive" to propel a spacecraft between two fixed "jump points" connecting stellar systems. Connecting systems in a network like this results in a fixed "terrain" with choke points that can be useful for constructing plots related to military campaigns. The Alderson points used by Larry Nivenand Jerry Pournellein " The Mote in God's Eye" and related novels are an example, although the mechanism does not seem to describe actual wormhole physics. David Weberhas also used the device in the Honorverseand other books such as those based upon the "Starfire" universe. Naturally occurring wormholes form the basis for interstellar travel in Lois McMaster Bujold's " Vorkosigan Saga". They are also used to create an Interstellar Commonwealth in Peter F. Hamilton's " Commonwealth Saga".
Concept of wormholes is used in "
The Wild Blue Yonder", a science fiction film by Werner Herzog
Wormholes also play pivotal roles in science fiction where faster-than-light travel is possible though limited, allowing connections between regions that would be otherwise unreachable within conventional timelines. Several examples appear in the "
Star Trek" franchise, including the Bajoran wormholein the "" series. In in 1979 the USS "Enterprise" (NCC-1701) was trapped in a wormhole caused by an imbalance in the calibration of the ship's warp engines when it first achieved warp speed.
In Carl Sagan's novel "Contact" and subsequent 1997 film starring
Jodie Fosterand Matthew McConaughey, Foster's character Ellie travels 26 light years through a series of wormholes to the star Vega. The round trip, which to Ellie lasts 18 hours, passes by in a fraction of a second on Earth, making it appear she went nowhere. In her defense, Foster mentions an Einstein-Rosen bridge and tells how she was able to travel faster than light and time. Analysis of the situation by Kip Thorne, on the request of Sagan, is quoted by Thorne as being his original impetus for analyzing the physics of wormholes.
Wormholes play major roles in the television series "
Farscape", where they are the cause of John Crichton's presence in the alien universe, and in the Stargate series, where stargates create a stable artificial wormhole where matter is disintegrated, converted into energy, and is sent through to be reintegrated at the other side. In the science fiction series " Sliders", a wormhole (or vortex, as it is usually called in the show) is used to travel between parallel worlds, and one is seen at least once or twice in every episode. In the pilot episode it was referred to as an "Einstein-Rosen-Podolsky bridge".
The central theme in the movie "
Donnie Darko" revolves around Einstein-Rosen bridges.
Wormholes play a major role in the movie "Jumper". The plot revolves around David, a kid who suddenly learns he can teleport himself from one place to another. In the movie, David can only teleport to a place he has been. Once he jumps, the wormhole stays open for a few minutes but is not called a wormhole, David refers to it as a jump scar. NOTE: The other Jumper that David meets does call it a "wormhole" once, when he is angered by David bringing the girl to his secret base in the desert.
Invader Zimepisode "Room With A Moose", Zim tricks his classmates into a wormhole with two exits: a room with a moose (left) and to Earth (right)
In Will Wright's video game
Spore, Wormholes play an important part of the space stage. Once the player has obtained a 'wormhole key' they are able to take their ship into wormholes, found scattered across the galaxy, which transport them through a semitransparent blue tunnel (similar to the tunnel seen occasionally in the series Stargate) to exit through another wormhole in some other part of the galaxy. The Galactic Core is also some kind of wormhole which takes the player to what appears to be the center of the universe.
Metamaterial- substance that can theoretically "construct invisibility cloaks and artificial wormholes" [http://pressesc.com/news/2658/23112007/3d-tv-made-possible-artificial-wormholes] [http://physicsworld.com/cws/article/news/31770]
* Self-consistency principle
* Einstein, Albert and Rosen, Nathan. [http://link.aps.org/abstract/PR/v48/p73 The Particle Problem in the General Theory of Relativity] . "Physical Review" 48, 73 (1935).
* Fuller, Robert W. and Wheeler, John A.. [http://link.aps.org/abstract/PR/v128/p919 Causality and Multiply-Connected Space-Time] . "Physical Review" 128, 919 (1962).
*Morris, Michael S., Thorne, Kip S., and Yurtsever, Ulvi. [http://link.aps.org/doi/10.1103/PhysRevLett.61.1446 Wormholes, Time Machines, and the Weak Energy Condition] . "Physical Review Letters" 61, 1446–1449 (1988).
* Morris, Michael S. and Thorne, Kip S.. [http://link.aip.org/link/?ajp/56/395 Wormholes in spacetime and their use for interstellar travel: A tool for teaching general relativity] . "American Journal of Physics" 56, 395-412 (1988).
* An excellent and more concise review.
* Visser, Matt. [http://link.aps.org/doi/10.1103/PhysRevD.39.3182 Traversable wormholes: Some simple examples] . "Physical Review D" 39, 3182–3184 (1989).
* [http://www.centauri-dreams.org/?p=561 Creating a Traversable Wormhole] by Mohammad Mansouryar
* [http://www.sciam.com/askexpert_question.cfm?articleID=000998FD-65C6-1C71-9EB7809EC588F2D7 What exactly is a 'wormhole'?] answered by Richard F. Holman, William A. Hiscock and Matt Visser.
* [http://www.mcs.vuw.ac.nz/~visser/general.shtml#why-wormholes Why wormholes?] by Matt Visser.
* [http://www.bun.kyoto-u.ac.jp/~suchii/wormholes.html Wormholes in General Relativity] by Soshichi Uchii.
* [http://www.npl.washington.edu/av/altvw103.html New Improved Wormholes] by John G. Cramer
* [http://casa.colorado.edu/~ajsh/schww.html White holes and Wormholes] provides a very good description of Schwarzschild wormholes with graphics and animations, by Andrew J. S. Hamilton.
* [http://webfiles.uci.edu/erodrigo/www/WormholeFAQ.html Questions and Answers about Wormholes] a comprehensive wormhole FAQ by Enrico Rodrigo.
* [http://xstructure.inr.ac.ru/x-bin/theme2.py?arxiv=gr-qc&level=2&index1=15 Wormhole on arxiv.org]
* [http://www.independent.co.uk/news/science/the-big-question-is-time-travel-possible-and-is-there-any-chance-that-it-will-ever-take-place-779761.html] - Information about the theory the Large Hadron Collider could create a small wormhole. Possibly making time travel into the past possible.
* [http://www.spacetimetravel.org/wurmlochflug/wurmlochflug.html animation that simulates traversing a wormhole]
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Look at other dictionaries:
Wormhole — Worm hole , n. A burrow made by a worm. [1913 Webster] … The Collaborative International Dictionary of English
wormhole — 1590s, hole made by a burrowing insect (in fruit, etc.), from WORM (Cf. worm) + HOLE (Cf. hole). Astrophysics sense is attested from 1957 … Etymology dictionary
wormhole — ► NOUN 1) a hole made by a burrowing insect larva or worm in wood, fruit, etc. 2) Physics a hypothetical connection between widely separated regions of space time … English terms dictionary
wormhole — [wʉrmhōl΄] n. 1. a hole made, as in wood, by a worm, termite, etc. 2. a hypothetical space time tunnel or channel connecting a black hole with another universe, with a white hole, etc … English World dictionary
wormhole — UK [ˈwɜː(r)mˌhəʊl] / US [ˈwɜrmˌhoʊl] noun [countable] Word forms wormhole : singular wormhole plural wormholes a hole made by a worm … English dictionary
Wormhole — Standard Black Holes do not rotate or have an electrical charge. If you get a Black Hole that rotates and/or has an electrical charge, then you have something special. You could fall into this type of Black Hole and not hit the Singularity.… … The writer's dictionary of science fiction, fantasy, horror and mythology
wormhole — noun Date: 1593 1. a hole or passage burrowed by a worm 2. a hypothetical structure of space time envisioned as a long thin tunnel connecting points that are separated in space and time … New Collegiate Dictionary
wormhole — /werrm hohl /, n. 1. a hole made by a burrowing or gnawing worm, as in timber, nuts, etc. 2. a theoretical passageway in space between a black hole and a white hole. [1585 95; WORM + HOLE] * * * … Universalium
wormhole — noun a) a hole burrowed by a worm To fill with worme holes stately monuments. b) A hypothetical shortcut between two points in spacetime, permitting faster than light travel and sometimes time travel … Wiktionary
wormhole — worm|hole [ˈwə:mhəul US ˈwə:rmhoul] n 1.) a hole, which may exist, that connects one part of the universe with another part far away 2.) a hole in a piece of wood etc made by a type of ↑worm … Dictionary of contemporary English