English

AdS/CFT and local renormalization group with gauge fields

High Energy Physics - Theory 2016-03-16 v3

Abstract

We revisit a study of local renormalization group (RG) with background gauge fields incorporated using the AdS/CFT correspondence. Starting with a (d+1)(d+1)-dimensional bulk gravity coupled to scalars and gauge fields, we derive a local RG equation from a flow equation by working in the Hamilton-Jacobi formulation of the bulk theory. The Gauss's law constraint associated with gauge symmetry plays an important role. RG flows of the background gauge fields are governed by vector β\beta-functions, and some interesting properties of them are known to follow. We give a systematic rederivation of them on the basis of the flow equation. Fixing an ambiguity of local counterterms in such a manner that is natural from the viewpoint of the flow equation, we determine all the coefficients uniquely appearing in the trace of the stress tensor for d=4d=4. A relation between a choice of schemes and a Virial current is discussed. As a consistency check, these are found to satisfy the integrability conditions of local RG transformations. From these results, we are led to a proof of a holographic cc-theorem by finding out a full family of schemes where a trace anomaly coefficient is related with a holographic cc-function.

Keywords

Cite

@article{arxiv.1511.00403,
  title  = {AdS/CFT and local renormalization group with gauge fields},
  author = {Ken Kikuchi and Tadakatsu Sakai},
  journal= {arXiv preprint arXiv:1511.00403},
  year   = {2016}
}

Comments

1+21 pages, v2: some comments and references added, v3: typos corrected

R2 v1 2026-06-22T11:34:27.317Z