Connecting Infinity to Soft Factors
Abstract
In this note we study tree-level scattering amplitudes of gravitons under a natural deformation which in the large limit can be interpreted either as a -hard-particle limit or as a -soft-particle limit. When this becomes the standard BCFW deformation while for it leads to the Risager deformation. The hard- to soft-limit map we define motivates a way of computing the leading order behavior of amplitudes for large directly from soft limits. We check the proposal by applying the and versions to NMHV and NMHV gravity amplitudes respectively. The former reproduces in a few lines the result recently obtained by using CHY-like techniques in \cite{BCL}. The NMHV formula is also remarkably simple and we give support for it using a CHY-like computation. In the case applied to any gravity amplitude, the multiple soft-limit analysis reproduces the correct behavior while explicitly showing the source of the mysterious cancellation among Feynman diagrams that tames the behavior from the of individual Feynman diagrams down to the of the amplitude.
Cite
@article{arxiv.2405.00660,
title = {Connecting Infinity to Soft Factors},
author = {Freddy Cachazo and Pablo Leon},
journal= {arXiv preprint arXiv:2405.00660},
year = {2024}
}
Comments
18 pages