# $\mathcal{N}=4$ Super-Yang-Mills Correlators at Strong Coupling from   String Theory and Localization

**Authors:** Damon J. Binder, Shai M. Chester, Silviu S. Pufu, and Yifan Wang

arXiv: 1902.06263 · 2020-01-29

## TL;DR

This paper computes $1/\lambda$ corrections to four-point functions in $\mathcal{N}=4$ super-Yang-Mills theory at large $N$ using localization and AdS/CFT, providing a precise check of string theory predictions beyond supergravity.

## Contribution

It introduces two methods to calculate $1/\lambda$ corrections and matches them, extending the understanding of holographic correlators beyond supergravity and deriving new CFT data.

## Key findings

- Matching of localization and string theory methods at $R^4$ order
- Derivation of holographic correlators at $D^4R^4$ order
- Conjecture for the $S^4$ partition function including instanton effects

## Abstract

We compute $1/\lambda$ corrections to the four-point functions of half-BPS operators in $SU(N)$ $\mathcal{N}=4$ super-Yang-Mills theory at large $N$ and large 't Hooft coupling $\lambda=g_\text{YM}^2 N$ using two methods. Firstly, we relate integrals of these correlators to derivatives of the mass deformed $S^4$ free energy, which was computed at leading order in large $N$ and to all orders in $1/\lambda$ using supersymmetric localization. Secondly, we use AdS/CFT to relate these $1/\lambda$ corrections to higher derivative corrections to supergravity for scattering amplitudes of Kaluza-Klein scalars in IIB string theory on $AdS_5\times S^5$, which in the flat space limit are known from worldsheet calculations. These two methods match at the order corresponding to the tree level $R^4$ interaction in string theory, which provides a precise check of AdS/CFT beyond supergravity, and allow us to derive the holographic correlators to tree level $D^4R^4$ order. Combined with constraints from arXiv:1809.10670, our results can be used to derive CFT data to one-loop $D^4R^4$ order. Finally, we use AdS/CFT to fix these correlators in the limit where $N$ is taken to be large while $g_{\rm YM}$ is kept fixed. In this limit, we present a conjecture for the small mass limit of the $S^4$ partition function that includes all instanton corrections and is written in terms of the same Eisenstein series that appear in the study of string theory scattering amplitudes.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1902.06263/full.md

## References

94 references — full list in the complete paper: https://tomesphere.com/paper/1902.06263/full.md

---
Source: https://tomesphere.com/paper/1902.06263