What is String theory: Definition and 829 Discussions

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.

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  1. N

    A Can strings increase length without changing their energy?

    For a string in string theory, Energy = string tension * length So I'm wondering if it can increase its length with increasing its energy.
  2. N

    I Does the length of a string depend on it's energy?

    Does the length of a string depend on its energy, or does its energy depend on its length? Similarly, does the area of a d brane depend on its energy, or does its energy depend on its energy? Are these stupid questions?
  3. Urs Schreiber

    Insights Why Higher Category Theory in Physics? - Comments

    Urs Schreiber submitted a new PF Insights post Why Higher Category Theory in Physics? Continue reading the Original PF Insights Post.
  4. M

    A Why are open strings vectors or scalars, or massive?

    In string theory, if we have NN BCs along ##X^i, i = 1, \ldots, n-1## and DD BCs along ##X^a, a = n, \ldots, 25## then you get, from ##\alpha^{i,a}_{-1}|0,p\rangle ##, ##n## massless vectors and ##24-n## massless scalars. I understand that for the first excited level, ##M^2=0## and so we have...
  5. N

    A Do higher dimensional branes have wave functions?

    Do higher dimensional branes, like the super membrane (which is a 2D brane) or the NS5/M5 brane, have wave functions? I know that they become unstable once they are quantized, but does that mean that they do not have wave functions? You will never here about any thing regarding an M2 wave...
  6. haushofer

    A Problems with quantizing branes in string theory

    Dear all, recently I'm reading up some string/M-theory, especially the role of branes, because I'm writing a popular science book in Dutch. Every textbook states the issues one encounters when you try to quantize p-branes for p>1, as is discussed e.g. here...
  7. K

    I Can string theory reproduce Hawking radiation in non-extremel black holes in 4D?

    can string theory reproduce hawking radiation in non-extremel black holes in 4D? i.e physically realistic black holes. do they exactly match hawking's calculations? what is the interpretation of hawking radiation in string theory?
  8. Kevin McHugh

    I Unraveling the Mysteries of Leptons in String Theory

    Could someone explain or point me in the right direction on how string theory explains the leptons? TIA, Kevin
  9. Julie1703

    B The dimension of time in String Theory

    I was doing some reading on String Theory...I'm not a scientist, but i enjoy it (so forgive me if my question is stupid) and i was wondering: Being time a dimension, could it be the dimension the strings exist in? And interaction between all particles and all forces determine how they vibrate...
  10. J

    String Theory and Theoretical vs. Mathematical Physics

    Hello, I have a question about the the difference between mathematical physics and theoretical physics in general and about the difference between the MSc Theoretical and Mathematical Physics courses at Edinburgh in particular. I am planning to apply, however I am not sure which of the two...
  11. ShayanJ

    A Exploring the Dual Low Energy Limits of Superstring Theory

    Let's consider superstring theory on a 10 dimensional Minkowski background. And assume there is a D3-brane on which the open strings end and closed strings wander around freely in the background. I want to know, in what limit this gives a supergravity theory in which I can study it by using the...
  12. wolram

    B Is supersymmetry a part of string theory

    Is supersymmetry part of string theory or does it have a place in the standard model
  13. Urs Schreiber

    Insights Spectral Standard Model and String Compactifications - Comments

    Urs Schreiber submitted a new PF Insights post Spectral Standard Model and String Compactifications Continue reading the Original PF Insights Post.
  14. M

    A What is Non-Abelian Z-theory and how does it relate to gluon amplitudes?

    Move over, M- theory and F-theory! http://arxiv.org/abs/1609.06863 A brief review of E theory Peter West (Submitted on 22 Sep 2016) I begin with some memories of Abdus Salam who was my PhD supervisor. After reviewing the theory of non-linear realisations and Kac-Moody algebras, I explain...
  15. ShayanJ

    A Gauge/Gravity correspondence, string theory or any QG?

    In this note, the author says: with the following footnote: But I don't understand how that can be true. All the evidence for the cojecture arises from string theory: Similarity of Large N expansion and the perturbative expansion of a string theory and the equivalent low energy description of...
  16. K

    I How do string theorists reply to Roger Penrose

    Roger Penrose’s http://press.princeton.edu/titles/10664.html']Fashion,[/PLAIN] Faith and Fantasy in the New Physics of the Universe "Arguing that string theory has veered away from physical reality by positing six extra hidden dimensions, Penrose cautions that the fashionable nature of a...
  17. wolram

    B Why Quantum loop or string theory

    I was wondering why Quantum loop theory is still being followed FAIK it does not predict any thing yet, the same for string theory which seems to have lost its predictability, if these theories fail being tested where will we be It seems to me like super symmetry is the theory that every one...
  18. F

    B What base to classify different string theory?

    I do not know why can they classify 5 theories of superstring.Is that correct that they base on different symmetries?
  19. I

    B Shape of elementary particles in QFT, etc?

    Hello, I hope this is not a stupid question as I am not a physicist. But I was curious about how contenders for the so-called Theory of Everything view the shape of the elementary particles. I know that the basic idea of string theory is related to the shape of elementary particles as one...
  20. RyeLie

    String Theory in 7 dimensions?

    String Theory implies that the universe has 11 dimensions. If the 3 Dimensions represents space and the other one is time, what about the 7 dimensions??
  21. P

    A Does String Theory have any equations yet? I chose not to....

    Back when I was studying at Princeton University, J.A. Wheeler introduced me to Ed Witten while we were having lunch at the Institute for Advanced Study (IAS). I knew Feynman’s and Wheeler’s views on “String Theory,” and I had looked into it a bit as a field of research, but I couldn’t seem to...
  22. Spinnor

    B An antenna in terms of string theory

    Loosely, in terms of string theory, an electron moving back and forth in a radiating antenna is a string moving in space-time. Far away, the electromagnetic radiation of the antenna is made of strings moving in space-time. Can I think of the near electric and magnetic fields surrounding the...
  23. KarminValso1724

    B Does string theory provide any additional insight to quantum mechanics?

    If so, how.
  24. J

    A Can random walks be applied to String Theory in curved space

    If we study the high temperature limit (near Hagedorn) of a string gas, most of the energy is concentrated in a single long string. If we model the string by a fixed number of rigid links of length ls and calculate the number of possible configurations, we get the density of states: $$\omega(E)...
  25. C

    The Internal Consistency of Collapsing Realities

    Currently I am working on a manga/comic of mine which imvolves science, especially stuff related to quantum mechanics. The theme of my manga is based on the 'collapsing of realities'...i.e, realities from different timescales would collapse at one place and try to exist at once, which would...
  26. Y

    B Derive Vacuum permeability and permeability....

    Derive Vacuum permittivity and permeability using Quantum Field theory or String theory! If QFT or String theory is real fundamental theory, it can be derived the permittivity and permeability of vacuum. << Moderator's note: personal contact details deleted>>
  27. P

    B Is string theory dead or still valid

    Didn't someone invent a bunch of dimensions in order to make the theory compatible with other theories but are the extra dimensions right or correct.
  28. James William

    I Energy density of a 1D string?

    Hello, As I understand there is a problem in physics where point-like massive (or charged, etc.) particles would have infinite mass/energy (or charge, etc.) density. I'm curious how in the context of String Theory how we address the same problem? I have come to understand Strings as...
  29. S

    Direction for Future: I'm Finishing High School & Want to be a Physicist

    I am finishing high school this year and i want to be a theoretical physicist. My academic result in mathematics is not good throughout last 5 years. But physics is my dream. I want to overcome every obstacles. I think i am not bad at mathematics but the reason behind my bad result was lack of...
  30. katatosh

    Help finding sources for research paper

    Hello all! I am a senior in high school with a love for physics. In English, we were assigned an argumentative research paper with a topic of our choice. So, naturally, I chose String Theory, since it is a semi controversial topic in theoretical physics today. My only problem is that I have a...
  31. K

    String theory deviations from GR in strong field regime

    string theory is a scalar-tensor theory of gravity, with higher order corrections. in light of the result discovery of gravitational waves of 2 black holes merging, matching GR in the strong field regime, how much deviation should strong theory differ from GR in the strong field regime and can...
  32. A

    Top string theory / mathematical physics programs

    What are some of the top graduate programs in Europe (excluding the UK) on theoretical physics specializing in string theory, fields or mathematical physics?
  33. G

    Gravitational Waves & Multidimensional Spacetime: Experiments & Detection

    So I saw that claims are being made that LIGO may have detected gravitational waves. http://www.nature.com/news/has-giant-ligo-experiment-seen-gravitational-waves-1.18449 My question is, if the universe were in fact multidimensional as string theory predicts, would gravitational waves propagate...
  34. I

    Is Brown good for string theory?

    Is Brown a good university for string theory? I've checked out their website but was wondering about the general reputation and strength of the researchers in string theory at Brown. It does seem like a small school and guessing their acceptance rate would be low. Thanks
  35. P

    How Do Bilinears Connect to Killing Vectors and Differential Forms?

    What does it mean that a Killing vector and a total differential of a certain theory are related to bilinears? In other words, why would bilinears (e.g. of the forms ##<\gamma_0\epsilon, \gamma_5\gamma_{\mu}\epsilon>## and ##<\gamma_0\epsilon, \gamma_{\mu}\epsilon>## tell us anything about...
  36. S

    How to know which gauge transformation we should use?

    Spinors in $N=2, D=4$ supergravity can be simplified using gauge transformation and thus canonical spinors can be found. In the case of $N=2, D=4$ supergravity the gauge transformation Spin (3,1) is used. My question is how do we know which transformation can be used in a certain theory in order...
  37. A

    AdS/CFT: Null Geodesics & Causal Connection?

    I believe I've read that null geodesics can reach the boundary of AdS space within finite affine parameter and that this allows for a causal connection between the bulk AdS spacetime and the boundary on which the CFT lives and that this is very important for AdS/CFT. I can't find a reference...
  38. S

    What does ##\delta F=0## mean?

    Links for [1] and [2] are below. Please have a look here section 12.6 [1]. It says here that Given the action of a supergravity theory, it is generally useful to search for solutions of the classical equations of motion. It is most useful to obtain solutions that can be interpreted as...
  39. D

    Validating String Theory: A Debate Among Physicists

    The following article debates whether string theory is testable. https://www.quantamagazine.org/20151216-physicists-and-philosophers-debate-the-boundaries-of-science Even though they mention philosophy, this is not merely a philosophical debate. It a serious question for physicists as to how...
  40. G

    Central charge in string theory

    Homework Statement I'd like to better understand why the central charge is assumed to be equal to the number of dimensions in the spacetime background. Homework Equations By definition of Virasoro algebra and its operators: [Lm,Ln]=(m−n)Lm+n+c/12(m3−m)δm+n,0 The Attempt at a Solution The...
  41. Fuinne

    I would like to learn about the string theory.

    Why hello there my fellow science lovers, I'm some what new to the forums, and I'm loving it here. If this is being posted in the wrong section, I am very sorry. Anyways, I'm aware of the whole idea of the string theory. General relativity governs motion at a macroscale and quantum field theory...
  42. denisaf

    Can String Theory Explain the Role of Friction in Everyday Operations on Earth?

    Various types of friction operate in all relative motion of materials. Boundary layers in the flow over on wings, Fatigue in metals subject the oscillatory bending. Friction between a car tire and the road. these are just some examples of the holistic impact on operations here on Earth. Does...
  43. S

    Simple calculation of Compton scattering in string theory

    Hallo. So the other day I reviewed a bit of quantum field theory and went through the Compton scattering calculation. To no ones surprise it was fairly simpel if you have a nice list of identities for rewriting the base results from the Feynman diagrams. See for exaxmple section 5.3 in...
  44. E

    Why do those two terms add here?

    When I was studying complex manifolds in a Freedman's SUGRA book, I ran across this. In a complex manifold, the metric is...
  45. E

    Why Complex Scalars in 4D Supersymmetric Theories?

    The scalar fields of supersymmetric theories in 4 spacetime dimensions are a set of complex fields (usually denoted by ##z^{\alpha}##). How can this be physically translated? More precisely, we know that in 5D, those scalars are real, so what is that makes them real here but complex there?
  46. F

    String theory and fundamental physical constants

    I have heard that ST can calculate the masses of the particles species of some vacuum and also its decay rate, charge and so on, but I have not seen any clear paper on the subject. Can anyone point me to one? Are "hbar" and "c" the same in all the vacuums?why or why not? Can ST predict the...
  47. S

    Self study towards quantum mechanics, string theory etc.

    Hello, before I start off, I apologize for asking a question which I am sure has been asked hundreds of times before: but I felt there is just way too much information out there which is a little confusing, so I am here with the hope of getting some personalized suggestions. I am currently a...
  48. jeffery_winkle

    What would Einstein think of string theory?

    If you could magically go back in time, and spend two hours with Einstein shortly before he died in 1955, could you explain to him current modern superstring theory? If so, what would he think of it?
  49. T

    How did S-Matrix theory affect the birth of String Theory?

    Can somebody please explain to me how the S-Matrix of Heisenberg and others helped influence the birth of String Theory. I keep hearing people say that String Theory came as a result of S-Matrix but I don't see the connection. Please keep maths to a minimal. Thanks.
  50. P

    Can anyone describe and explain P-branes and D-branes to me?

    Like what does the higher dimensional branes mean what what do branes do.
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