Leading Giant graviton expansion of Schur correlators in large representations
Abstract
We consider 4d N=4 U(N) SYM and the leading giant graviton correction to the Schur defect 2-point functions of 12-BPS Wilson lines in rank-k symmetric and antisymmetric representations. We study in particular the large k limit for the symmetric case and the regime 1 k N in the antisymmetric one. We present exact results for the correction in agreement with matrix model evaluation at finite N,k. The Wilson lines in symmetric/antisymmetric representations admit a description in terms of D3k and D5k brane probes representing a collection of k fundamental strings. In this picture, giant graviton corrections come from fluctuations of brane probes in presence of a wrapped D3 brane giant graviton. In particular, for the antisymmetric case, our leading correction matches the half-index of the 3d N=4 Maxwell theory living on the 3d disk which is a part of the giant graviton divided out by the D5k probe, as recently proposed in arXiv:2404.08302. For the symmetric case at large k, we derive an explicit exact residue formula for the leading correction.
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