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M-theory

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M-theory is a solution proposed for the unknown theory of everything which would combine all five superstring theories and 11-dimensional supergravity together. According to Dr. Edward Witten, who proposed the theory, mathematical tools which have yet to be invented are needed in order to fully understand it.

Contents

M-theory's relation to superstrings and supergravity

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M-theory's place in relation to the five other string theories, by type of duality

M-Theory in various geometric backgrounds is associated with the different superstring theories (in different geometric backgrounds), and these limits are related to each other by the principle of dualism. Two physical theories are dual to each other if they have identical physics after a certain mathematical transformation.

Type IIA and IIB are related by T-duality, as are the two Heterotic theories. Type I and Heterotic SO(32) are related by the S-duality. Type IIB is also S-dual with itself.

  • The type II theories have two supersymmetries in the ten-dimensional sense, the rest just one.
  • The type I theory is special in that it is based on unoriented open and closed strings.
  • The other four are based on oriented closed strings.
  • The IIA theory is special because it is non-chiral (parity conserving).
  • The other four are chiral (parity violating).

In each of these cases there is an 11th dimension that becomes large at strong coupling. In the IIA case the 11th dimension is a circle. In the HE case it is a line interval, which makes eleven-dimensional space-time display two ten-dimensional boundaries. The strong coupling limit of either theory produces an 11-dimensional space-time. This eleven-dimensional description of the underlying theory is called "M- theory". A string's space-time history can be viewed mathematically by functions like

<math>X^\mu(\sigma,\tau)<math>

that describe how the string's two-dimensional sheet coordinates <math>(\sigma,\tau)<math> map into space-time <math>X^\mu<math>.

One interpretation of this result is that the 11th dimension was always present but invisible because the radius of the 11th dimension is proportional to the string coupling constant and the traditional perturbative string theory presumes it to be infinitesimal. Another interpretation is that dimension is not a fundamental concept of M-theory at all.

Characteristics of M-theory

M-theory contains much more than just strings. It contains both higher and lower dimensional objects. These objects are called p-branes where p denotes their spatial dimensionality (thus, 1-brane for a string and 2-brane for a membrane). Higher dimensional objects were always present in superstring theory but could never be studied before the Second Superstring Revolution because of their non-perturbative nature.

Insights into non-perturbative properties of p-branes stem from a special class of p-branes called Dirichlet p-branes (Dp-branes). This name results from the Dirichlet boundary condition assigned to the ends of open strings in type I superstrings. Template:Unsolved

Open strings of the type I theory can have endpoints which satisfy the Neumann boundary condition. Under this condition, the endpoints of strings are free to move about but no momentum can flow into or out of the end of a string. The T duality infers the existence of open strings with positions fixed in the dimensions that are T-transformed. Generally, in type II theories, we can imagine open strings with specific positions for the end-points in some of the dimensions. This lends an inference that they must end on a preferred surface. Superficially, this notion seems to break the relativistic invariance of the theory, possibly leading to a paradox. The resolution of this paradox is that strings end on a p-dimensional dynamic object, the Dp-brane.

The importance of D-branes stems from the fact that they make it possible to study the excitations of the brane using the renormalizable 2D quantum field theory of the open string instead of the non-renormalizable world-volume theory of the D-brane itself. In this way it becomes possible to compute non-perturbative phenomena using perturbative methods. Many of the previously identified p-branes are D-branes ! Others are related to D-branes by duality symmetries, so that they can also be brought under mathematical control. D-branes have found many useful applications, the most remarkable being the study of black holes. Strominger and Vafa have shown that D-brane techniques can be used to count the quantum microstates associated to classical black hole configurations. </i>The simplest case first explored was static extremal charged black holes in five dimensions. Strominger and Vafa proved for large values of the charges the entropy <math>S = \log N<math>, where <math>N<math> is equal to the number of quantum states that system can be in, agrees with the Bekenstein-Hawking prediction (1/4 the area of the event horizon).

This result has been generalized to black holes in 4D as well as to ones that are near extremal (and radiate correctly) or rotating, a remarkable advance. It has not yet been proven that there is any problematic breakdown of quantum mechanics due to black holes.

Matrix theory is a promising formulation of M-theory.

Further reading

  • Duff, Michael J., The Theory Formerly Known as Strings (http://feynman.physics.lsa.umich.edu/~mduff/talks/1998%20-%20The%20Theory%20Formerly%20Known%20as%20Strings.pdf), Scientific American, February 1998, online at The University of Michigan.
  • Gribbin, John. The Search for Superstrings, Symmetry, and the Theory of Everything, ISBN 0316329754, Little, Brown & Company, 1ST BACK B Edition, August 2000, specifically pages 177-180.
  • Greene, Brian. The Elegant Universe: Superstrings, Hidden Dimensions, and the Quest for the Ultimate Theory, ISBN 0393046885, W.W. Norton & Company, February 1999
  • Taubes, Gary. "String theorists find a Rosetta Stone." Science, v. 285, July 23, 1999: 512-515, 517. Q1.S35

External links

es:Teora M pl:M-teoria simple:M-theory zh:M理论

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