Two-loop leading-color helicity amplitudes for three-photon production at the LHC
Journal of High Energy Physics Springer Nature 2021:6 (2021) 150
Abstract:
We calculate all planar contributions to the two-loop massless helicity amplitudes for the process qq¯¯ → γγγ. The results are presented in fully analytic form in terms of the functional basis proposed recently by Chicherin and Sotnikov. With this publication we provide the two-loop contributions already used by us in the NNLO QCD calculation of the LHC process pp → γγγ [Chawdhry et al. (2019)]. Our results agree with a recent calculation of the same amplitude [Abreu et al. (2020)] which was performed using different techniques. We combine several modern computational techniques, notably, analytic solutions for the IBP identities, finite-field reconstruction techniques as well as the recent approach [Chen (2019)] for efficiently projecting helicity amplitudes. Our framework appears well-suited for the calculation of two-loop multileg amplitudes for which complete sets of master integrals exist.NNLO QCD corrections to three-photon production at the LHC
Journal of High Energy Physics Springer Nature 2020:2 (2020) 57
Ambiguities of the principle of maximum conformality procedure for hadron collider processes
Physical Review D American Physical Society (APS) 100:7 (2019) 074013
Two-loop five-point massless QCD amplitudes within the integration-by-parts approach
Physical Review D American Physical Society (APS) 99:7 (2019) 076011