String Theory from Maximal Supersymmetry
Abstract
We explore the space of non-gravitational, maximally supersymmetric, planar 4d effective field theories (EFTs) that have super Yang-Mills (SYM) at leading order. We show that in the weakly-coupled regime, highly non-trivial nonlinear constraints on the 4-point Wilson coefficients follow from enforcing supersymmetry and R-symmetry together with the requirement of standard tree-level factorization on the massless poles of the 4-, 5-, and 6-point EFT scattering amplitudes. Additionally, when these novel constraints are combined with positivity, the resulting bounds on the 4-point Wilson coefficients converge to the values of the open string Veneziano amplitude. Our results strongly suggest that supersymmetry, R-symmetry, and positivity are sufficient to single out this unique UV completion at tree level. Our findings, moreover, highlight the power of higher-point amplitudes in constraining EFT data and imply that the space of consistent quantum field theories is even more restricted than previously suggested by causality or swampland-based approaches.
Cite
@article{arxiv.2601.11705,
title = {String Theory from Maximal Supersymmetry},
author = {Henriette Elvang and Aidan Herderschee and Roger Morales},
journal= {arXiv preprint arXiv:2601.11705},
year = {2026}
}
Comments
v1: 39 pages, 3 figures. v2: Important discussion and corrections included regarding local contact terms in the 6-scalar EFT amplitude