English

Two dimensional RG flows and Yang-Mills instantons

High Energy Physics - Theory 2012-07-30 v2

Abstract

We study RG flow solutions in (1,0) six dimensional supergravity coupled to an anti-symmetric tensor and Yang-Mills multiplets corresponding to a semisimple group GG. We turn on GG instanton gauge fields, with instanton number NN, in the conformally flat part of the 6D metric. The solution interpolates between two (4,0) supersymmetric AdS3×S3AdS_3\times S^3 backgrounds with two different values of AdS3AdS_3 and S3S^3 radii and describes an RG flow in the dual 2D SCFT. For the single instanton case and G=SU(2)G=SU(2), there exist a consistent reduction ansatz to three dimensions, and the solution in this case can be interpreted as an uplifted 3D solution. Correspondingly, we present the solution in the framework of N=4 (SU(2)R3)2(SU(2)\ltimes \mathbf{R}^3)^2 three dimensional gauged supergravity. The flows studied here are of v.e.v. type, driven by a vacuum expectation value of a (not exactly) marginal operator of dimension two in the UV. We give an interpretation of the supergravity solution in terms of the D1/D5 system in type I string theory on K3, whose effective field theory is expected to flow to a (4,0) SCFT in the infrared.

Cite

@article{arxiv.1012.4953,
  title  = {Two dimensional RG flows and Yang-Mills instantons},
  author = {Edi Gava and Parinya Karndumri and K. S. Narain},
  journal= {arXiv preprint arXiv:1012.4953},
  year   = {2012}
}

Comments

30 pages, clarifications of some notations added and typos corrected

R2 v1 2026-06-21T17:03:03.406Z