On the structure of non-planar strong coupling corrections to correlators of BPS Wilson loops and chiral primary operators

Abstract

Starting with some known localization (matrix model) representations for correlators involving 1/2 BPS circular Wilson loop W in N=4 SYM theory we work out their 1/N expansions in the limit of large 't Hooft coupling λ. Motivated by a possibility of eventual matching to higher genus corrections in dual string theory we follow arXiv:2007.08512 and express the result in terms of the string coupling g s g2 YM λ/N and string tension T λ. Keeping only the leading in 1/T term at each order in g s we observe that while the expansion of W is a series in g2 s /T, the correlator of the Wilson loop with chiral primary operators OJ has expansion in powers of g2 s/T2. Like in the case of W where these leading terms are known to resum into an exponential of a "one-handle" contribution g2 s /T, the leading strong coupling terms in W\, OJ sum up to a simple square root function of g2 s/T2. Analogous expansions in powers of g2 s/T are found for correlators of several coincident Wilson loops and they again have a simple resummed form. We also find similar expansions for correlators of coincident 1/2 BPS Wilson loops in the ABJM theory.