Gluon scattering in AdS at finite string coupling from localization
Abstract
We consider gluons scattering in Type IIB string theory on AdS in the presence of D7 branes, which is dual to the flavor multiplet correlator in a certain 4d gauge theory with flavor symmetry and complexified coupling . We compute this holographic correlator in the large and finite expansion using constraints from derivatives of the mass deformed sphere free energy, which we compute to all orders in and finite using supersymmetric localization. In particular, we fix the higher derivative correction to gluon scattering on AdS at finite string coupling in terms of Jacobi theta functions, which feature the expected relations between the duality and the triality of the CFT, and match it to the known flat space term. We also use the flat space limit to compute corrections of the correlator at finite in terms of a non-holomorphic Eisenstein series. At weak string coupling, we find that the AdS correlator takes a form which is remarkably similar to that of the flat space Veneziano amplitude.
Keywords
Cite
@article{arxiv.2305.01016,
title = {Gluon scattering in AdS at finite string coupling from localization},
author = {Connor Behan and Shai M. Chester and Pietro Ferrero},
journal= {arXiv preprint arXiv:2305.01016},
year = {2025}
}
Comments
26 pages plus appendices, v7 typo fixed