Abstract
Abstract
We develop an analytic approach to Boundary Conformal Field Theory (BCFT), focussing on the two-point function of a general pair of scalar primary operators. The resulting crossing equation can be thought of as a vector equation in an infinite-dimensional space
$$ \mathcal{V} $$
V
of analytic functions of a single complex variable. We argue that in a unitary theory, functions in
$$ \mathcal{V} $$
V
satisfy a boundedness condition in the Regge limit. We identify a useful basis for
$$ \mathcal{V} $$
V
, consisting of bulk and boundary conformal blocks with scaling dimensions which appear in OPEs of the mean field theory correlator. Our main achievement is an explicit expression for the action of the dual basis (the basis of linear functionals on
$$ \mathcal{V} $$
V
) on an arbitrary conformal block. The practical merit of our basis is that it trivializes the study of perturbations around mean field theory. Our results are equivalent to a BCFT version of the Polyakov bootstrap. Our derivation of the expressions for the functionals relies on the identification of the Polyakov blocks with (suitably improved) boundary and bulk Witten exchange diagrams in AdS
d+1. We also provide another conceptual perspective on the Polyakov block expansion and the associated functionals, by deriving a new Lorentzian OPE inversion formula for BCFT.
Publisher
Springer Science and Business Media LLC
Subject
Nuclear and High Energy Physics
Cited by
59 articles.
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