Composing Effective Prediction at Five Points
Abstract
Color-kinematics duality in the adjoint has proven key to the relationship between gauge and gravity theory scattering amplitude predictions. In recent work, we demonstrated that at four-point tree-level, a small number of color-dual EFT building blocks could encode all higher-derivative single-trace massless corrections to gauge and gravity theories compatible with adjoint double-copy. One critical aspect was the trivialization of building higher-derivative color-weights -- indeed, it is the mixing of kinematics with non-adjoint-type color-weights (like the permutation-invariant d^4) which permits description via adjoint double-copy. Here we find that such ideas clarify the predictions of local five-point higher-dimensional operators as well. We demonstrate how a single scalar building block can be combined with color structures to build higher-derivative color factors that generate, through double copy, the predictions of higher-derivative gauge-theory operators. These may then be suitably mapped, through another double-copy, to higher-derivative corrections in gravity.
Cite
@article{arxiv.2104.08370,
title = {Composing Effective Prediction at Five Points},
author = {John Joseph M. Carrasco and Laurentiu Rodina and Suna Zekioglu},
journal= {arXiv preprint arXiv:2104.08370},
year = {2021}
}
Comments
73 pages, 6 tables, at least 5 algebraic structures. Ancillary Mathematica files available at: https://github.com/sunazekioglu/fivePointEFT