Pré-Publication, Document De Travail Année : 2024

Bootstrapping bulk locality. Part II: Interacting functionals

Résumé

Locality of bulk operators in AdS imposes stringent constraints on their description in terms of the boundary CFT. These constraints are encoded as sum rules on the bulk-to-boundary expansion coefficients. In this paper, we construct families of sum rules that are (i) complete and (ii) `dual' to sparse CFT spectra. The sum rules trivialise the reconstruction of bulk operators in strongly interacting QFTs in AdS space and allow us to write down explicit, exact, interacting solutions to the locality problem. Technically, we characterise `completeness' of a set of sum rules by constructing Schauder bases for a certain space of real-analytic functions. In turn, this allows us to prove a Paley-Weiner type theorem characterising the space of sum rules. Remarkably, with control over this space, it is possible to write down closed-form `designer sum rules', dual to a chosen spectrum of CFT operators meeting certain criteria. We discuss the consequences of our results for both analytic and numerical bootstrap applications.

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hal-04765892 , version 1 (04-11-2024)

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Nat Levine, Miguel F. Paulos. Bootstrapping bulk locality. Part II: Interacting functionals. 2024. ⟨hal-04765892⟩
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