Loops and trees in generic EFTs
Abstract
We consider aspects of tree and one-loop behavior in a generic 4d EFT of massless scalars, fermions, and vectors, with a particular eye to the high-energy limit of the Standard Model EFT at operator dimensions 6 and 8. First, we classify the possible Lorentz structures of operators and the subset of these that can arise at tree-level in a weakly coupled UV completion, extending the tree/loop classification through dimension 8 using functional methods. Second, we investigate how operators contribute to tree and one-loop helicity amplitudes, exploring the impact of non-renormalization theorems through dimension 8. We further observe that many dimension 6 contributions to helicity amplitudes, including rational parts, vanish exactly at one-loop level. This suggests the impact of helicity selection rules extends beyond one loop in non-supersymmetric EFTs.
Keywords
Cite
@article{arxiv.2001.00017,
title = {Loops and trees in generic EFTs},
author = {Nathaniel Craig and Minyuan Jiang and Ying-Ying Li and Dave Sutherland},
journal= {arXiv preprint arXiv:2001.00017},
year = {2023}
}
Comments
29+1 pages, 5 figures, 6 tables