English

Towards consistent Electroweak Precision Data constraints in the SMEFT

High Energy Physics - Phenomenology 2017-07-18 v5

Abstract

We discuss the impact of many previously neglected effects of higher dimensional operators when fitting to Electroweak Precision data (EWPD) in the Standard Model Effective Field Theory (SMEFT). We calculate the general case of 222 \rightarrow 2 fermion scattering in the SMEFT to order O(vˉT2/Λ2)\mathcal{O}(\bar{v}_T^2/\Lambda^2) valid on and off the ZZ pole, in the massless fermion limit. We demonstrate that previously neglected corrections scale as ΓZMZ/vˉT2\Gamma_Z M_Z/\bar{v}_T^2 in the partial widths extracted from measured cross sections at LEPI, compared to the leading effect of dimension six operators in anomalous ZZ couplings. Further, constraints on leading effects of anomalous ZZ couplings are also modified by neglected perturbative corrections and dimension eight operators. We perform a minimal EWPD fit to illustrate the size of the error these corrections induce, when bounding leading effects. These considerations relax bounds compared to a naive leading order analysis, and show that constraints that rise above the percent level are subject to substantial theoretical uncertanties. We also argue that renormalization group running global constraints expressed through χ2\chi^2 functions to a common scale, and then minimizing and performing a global fit of all data allows more consistent constraints to be obtained in the SMEFT.

Keywords

Cite

@article{arxiv.1502.02570,
  title  = {Towards consistent Electroweak Precision Data constraints in the SMEFT},
  author = {Laure Berthier and Michael Trott},
  journal= {arXiv preprint arXiv:1502.02570},
  year   = {2017}
}

Comments

32 pg, 2 fig, Acknowledgement updated with grant numbers, typo corrected

R2 v1 2026-06-22T08:25:39.943Z