English

Little String Theory at a TeV

High Energy Physics - Theory 2010-02-03 v2 Astrophysics High Energy Physics - Phenomenology

Abstract

We propose a framework where the string scale as well as all compact dimensions are at the electroweak scale \sim TeV1^{-1}. The weakness of gravity is attributed to the small value of the string coupling gs1016g_s \sim 10^{-16}, presumably a remnant of the dilaton's runaway behavior, suggesting the possibility of a common solution to the hierarchy and dilaton-runaway problems. In spite of the small gsg_s, in type II string theories with gauge interactions localized in the vicinity of NS5-branes, the standard model gauge couplings are of order one and are associated with the sizes of compact dimensions. At a TeV these theories exhibit higher dimensional and stringy behavior. The models are holographically dual to a higher dimensional non-critical string theory and this can be used to compute the experimentally accessible spectrum and self-couplings of the little strings. In spite of the stringy behavior, gravity remains weak and can be ignored at collider energies. The Damour-Polyakov mechanism is an automatic consequence of our scenario and suggests the presence of a massless conformally-coupled scalar, leading to potentially observable deviations from Einstein's theory, including violations of the equivalence principle.

Keywords

Cite

@article{arxiv.hep-th/0103033,
  title  = {Little String Theory at a TeV},
  author = {Ignatios Antoniadis and Savas Dimopoulos and Amit Giveon},
  journal= {arXiv preprint arXiv:hep-th/0103033},
  year   = {2010}
}

Comments

22 pages, harvmac, 2 figures; v2: additional refs. and discussion of the violation of the equivalence principle