In physics, string theory is a theoretical framework in which the point-like particles of particle physics are replaced by one-dimensional objects called strings. String theory describes how these strings propagate through space and interact with each other. On distance scales larger than the string scale, a string looks just like an ordinary particle, with its mass, charge, and other properties determined by the vibrational state of the string. In string theory, one of the many vibrational states of the string corresponds to the graviton, a quantum mechanical particle that carries gravitational force. Thus string theory is a theory of quantum gravity.
String theory is a broad and varied subject that attempts to address a number of deep questions of fundamental physics. String theory has contributed a number of advances to mathematical physics, which have been applied to a variety of problems in black hole physics, early universe cosmology, nuclear physics, and condensed matter physics, and it has stimulated a number of major developments in pure mathematics. Because string theory potentially provides a unified description of gravity and particle physics, it is a candidate for a theory of everything, a self-contained mathematical model that describes all fundamental forces and forms of matter. Despite much work on these problems, it is not known to what extent string theory describes the real world or how much freedom the theory allows in the choice of its details.
String theory was first studied in the late 1960s as a theory of the strong nuclear force, before being abandoned in favor of quantum chromodynamics. Subsequently, it was realized that the very properties that made string theory unsuitable as a theory of nuclear physics made it a promising candidate for a quantum theory of gravity. The earliest version of string theory, bosonic string theory, incorporated only the class of particles known as bosons. It later developed into superstring theory, which posits a connection called supersymmetry between bosons and the class of particles called fermions. Five consistent versions of superstring theory were developed before it was conjectured in the mid-1990s that they were all different limiting cases of a single theory in 11 dimensions known as M-theory. In late 1997, theorists discovered an important relationship called the AdS/CFT correspondence, which relates string theory to another type of physical theory called a quantum field theory.
One of the challenges of string theory is that the full theory does not have a satisfactory definition in all circumstances. Another issue is that the theory is thought to describe an enormous landscape of possible universes, which has complicated efforts to develop theories of particle physics based on string theory. These issues have led some in the community to criticize these approaches to physics, and to question the value of continued research on string theory unification.
Michael Dine just posted this
"Is There a String Theory Landscape: Some Cautionary Notes"
http://arxiv.org/hep-th/0402101
as a sample, here are the concluding remarks:
"Mention of the anthropic principle brings out strong reactions from most physicists, who ask what can be the role of...
this just out
http://arxiv.org/hep-th/0401172
quoting from the abstracts:
The LQG -- String: Loop Quantum Gravity Quantization of String Theory I. Flat Target Space
Authors: Thomas Thiemann
Comments: 46 p.
"We combine
I. background independent Loop Quantum Gravity (LQG)...
I would like your comments on whether a model of EPR entanglement based on superstring theory makes any sense.
Let's suppose we are concerned with understanding the entanglement of an electron/positron particle pair created at a point in an EPR experiment. The particles fly off in opposite...
Here is where you can watch steaming video at the PBS website (it is a nova special)... they break it up for you into 24 videos that are average 7 mins each.
I understood it a lot better after watching it on PBS and then watching it a second time on this site. there is some content that the...
This accusation is made by one physicist in the streaming video links provided by Integral [Thanks Integral! I had missed these shows when they aired and I was POed!]. I have heard or read similar statements elsewhere. As I understand the state of the theory, whatever its latest evolution is...
I am currently researching multi-dimensional models of the universe. The string theory allows for the possibility of a phenomenon called "gravity leaks" could someone expound upon this, and offer your thoughts on the following. Assuming for a moment that the multi-dimensional theory is proven...
Hi guys, I am new here. Just finished reading Brian Greene's book and I wrote this paper. I have no idea if it makes good sense but it sounded right at the time. I am a medical doctor and I know no physicists to review it. If I'm violating some sort of rule, please tell me. Thanks.
The...
Okay I have to do a project on "the string theory." I've done some research on it using sources from the internet and some books--but I don't really understand what it exacly is. All of these things I have read explain it in such complex ways that make it difficult to grasp. I don't...
I just thought about it yesterday, and although is has been discussed here earlier, i'd like to raise the issue again.
Can there really be more than one time dimension? so for instance, we could "circle around", come back, and pass through a moment we have already been through... it's quiet...
I had originaly posted a thread on this theory in another forum, but I realize that it is better suited for this forum.
In the attached file is a diagram of the string. In this string theory, strings are made of two opposite charges that exist within two extra dimentions. the dimentions have...
How and from what was string theory first formulated? I have heard that it was somehow connected with the attempt to unify General relativity and electromagnetism by introducing a fifth dimension, but I know little about the logical process which gave rise to string theory.
In sunny England, there is a 3 part tv programme type thingy on 'The Theory of Everything' in which string theory stars. I am one for embracing new ideas, but string theory sounds like a load of old hats to me. It may be the wishy-washy way that they present it with tons of special effects and...
"String Theory" in Physics?
Do any of you guys know anything about or where I can find information about the "string theory" in physics? I can't find any information on it.
The following paper entitled Resource Letter: The Nature and Status of String Theory was authored by Donald Marolf
at UCSB. It gives a useful annotated overview of string theory literature, both popular and technical.
http://xxx.lanl.gov/abs/hep-th/0311044
At which scale in length terms does the Heisenburg Uncertainty Principle kick in for Stringtheory?
In the string vibration for Gravitational interactions, as the scale is condensed, surely this would have a 'bigger' Uncertainty in strings that split off due to their proximity in scale...
If there is some kind of divine string formulation that could reveal the patterns of both fate and chaos, but ultimately it was born to encompass the relative world with the quantuum world, are we not left in a world of extreme order where chaos surrounds totality infinitely?
IE the totality...
Hi, so I've just recently like really found out about string theory. I mean, I've seen posts around here on it, but I've never really followed them well. I was talk with my physics professor about some crazy thought i had and he was like "oh, string theory." heh... right, and here i thought i...
A recent paper details some new insights for the second quantized
string field theory.
This has some implications for future models, it appears to be quite sound, but this is based on a confined early viewpoint of a first once over reading, no doubt there will be more questions to follow...
It is my understanding that String Theory is an attempt at combining the quantum theories with relativity, correct? My question is, why is this considerd so difficult? What about the two separate theories (quantum and relativity) makes them so hard to combine? Do they oppose each other or something?
String theory as it has developed is not a field theory. It has more in common with Schroedinger's or Dirac's particle theories than with QED or the Standard Model. There is a real string field theory, and papers about it sometime appear on the arxiv. It started with Sen's conjectures about...
what the differences in the mathematical framework in the two theories?
i know i heard that the maths of string theory is of 21th century (which is now).
In string theory, all particles and forces of nature of mere results of vibrating strings. Can LQG offer an alternative explanation for the zoo of particles we find? I seem to recall reading that the theory proposes that quarks are where edges of the lattice intersect, but I can't recall where...
I'm seeking one single theory that ties in all mathematics together, ranging from simple artimetic to complex algebraic equations, which can be used universally for all applications - well, let me amend that: at least for common everyday functions. I'm certain there's one individual out there...
¿is string theory the solution to quantum gravity?
..is the only way to reach to quantum gravity..?.or are another ways..(such as canonical quantization)..i say that to have another option studying the subject.