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CFT in AdS and boundary RG flows

Author(s): Giombi, Simone; Khanchandani, Himanshu

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Abstract: <jats:title>A<jats:sc>bstract</jats:sc> </jats:title><jats:p>Using the fact that flat space with a boundary is related by a Weyl transformation to anti-de Sitter (AdS) space, one may study observables in boundary conformal field theory (BCFT) by placing a CFT in AdS. In addition to correlation functions of local operators, a quantity of interest is the free energy of the CFT computed on the AdS space with hyperbolic ball metric, i.e. with a spherical boundary. It is natural to expect that the AdS free energy can be used to define a quantity that decreases under boundary renormalization group flows. We test this idea by discussing in detail the case of the large <jats:italic>N</jats:italic> critical <jats:italic>O</jats:italic>(<jats:italic>N</jats:italic>) model in general dimension <jats:italic>d</jats:italic>, as well as its perturbative descriptions in the epsilon-expansion. Using the AdS approach, we recover the various known boundary critical behaviors of the model, and we compute the free energy for each boundary fixed point, finding results which are consistent with the conjectured <jats:italic>F</jats:italic>-theorem in a continuous range of dimensions. Finally, we also use the AdS setup to compute correlation functions and extract some of the BCFT data. In particular, we show that using the bulk equations of motion, in conjunction with crossing symmetry, gives an efficient way to constrain bulk two-point functions and extract anomalous dimensions of boundary operators.</jats:p>
Publication Date: 23-Nov-2020
Electronic Publication Date: 23-Nov-2020
Citation: Giombi, Simone, Khanchandani, Himanshu. (2020). CFT in AdS and boundary RG flows. Journal of High Energy Physics, 2020 (11), 10.1007/jhep11(2020)118
DOI: doi:10.1007/jhep11(2020)118
EISSN: 1029-8479
Keywords: Boundary Quantum Field Theory, Conformal Field Theory
Language: en
Type of Material: Journal Article
Journal/Proceeding Title: Journal of High Energy Physics
Version: Final published version. This is an open access article.



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