English

Higher-derivative corrections in M-theory from precision numerical bootstrap

High Energy Physics - Theory 2024-12-19 v1

Abstract

We study higher-derivative corrections to the graviton scattering amplitude in M-theory, via the stress tensor correlator of 3d N=8\mathcal{N} =8 U(N)k×U(N)k\text{U}(N)_k\times \text{U}(N)_{-k} ABJM theory (dual to graviton scattering in M-theory on AdS4×S7/Zk\text{AdS}_4\times S^7/\mathbb{Z}_k). We use the conformal bootstrap combined with an integral constraint derived from supersymmetric localization in order to constrain semishort OPE coefficients appearing in the stress tensor correlator. We obtain islands that are significantly more precise than those in previous studies that did not use the integral constraint. Using these islands, we can estimate the powers and coefficients in a large central charge expansion. This allows us to accurately read off the N3^3LO contribution, from the protected D6R4D^6 R^4 correction, and also estimate the N4^4LO contribution, from the unprotected D8R4D^8 R^4 correction.

Keywords

Cite

@article{arxiv.2412.14094,
  title  = {Higher-derivative corrections in M-theory from precision numerical bootstrap},
  author = {Shai M. Chester and Ross Dempsey and Silviu S. Pufu},
  journal= {arXiv preprint arXiv:2412.14094},
  year   = {2024}
}

Comments

36 pages, 11 figures

R2 v1 2026-06-28T20:40:53.061Z