Two-loop QCD Amplitudes from the Chiral Algebra Bootstrap
Abstract
We show that the chiral algebra bootstrap, which computes form factors of twistorial theories, can help determine two-loop amplitudes in massless QCD. We give an -gluon result for a previously unknown partial amplitude of the two-loop all-plus-helicity QCD amplitude by utilizing supersymmetry Ward identities and known chiral algebra bootstrap results. We then show that the full-color two-loop -gluon amplitude of QCD with quark flavors can be obtained from certain two-loop form factors of twistorial theories and one-loop and tree-level amplitudes. Chiral algebra bootstrap results exist for these form factors when all gluons have positive helicities. Hence, the bootstrap simplifies the computation of these two-loop amplitudes by one loop level.
Cite
@article{arxiv.2510.20156,
title = {Two-loop QCD Amplitudes from the Chiral Algebra Bootstrap},
author = {Anthony Morales},
journal= {arXiv preprint arXiv:2510.20156},
year = {2025}
}
Comments
10 pages, 5 figures