English

Electroweak Restoration: SMEFT and HEFT

High Energy Physics - Phenomenology 2026-05-12 v1

Abstract

Colliders continue to push our understanding of electroweak (EW) interactions to ever higher energies. At high energies, many observables in the broken EW theory are expected to approach the unbroken theory. This is the electroweak restoration regime, where longitudinal gauge boson production corresponds to Goldstone boson production. As such, in this paper we investigate electroweak restoration in the context of linear and non-linear realizations of the EW symmetry in longitudinal di-boson production: ffˉVLVLf\bar{f}'\rightarrow V_LV'_L and ffˉVLhf\bar{f}'\rightarrow V_Lh, where VL,VLV_L,V'_L are longitudinal gauge bosons, hh is the Higgs boson, and f,ff,f' are SM fermions. For the linear beyond the SM (BSM) theory, we use the Standard Model Effective Theory (SMEFT), and for the non-linear BSM theory, we use Higgs Effective Field Theory (HEFT). We give a general discussion of these amplitudes and cross sections in the SM, SMEFT, and HEFT. Using the Goldstone boson equivalence theorem, we derive a set of ratios among high energy VLVLV_LV'_L and VLhV_Lh amplitudes that are expected to approach one in the SM and SMEFT. Through our explicit calculations, we show that these ratios do indeed approach one in the SM and dimension-6 SMEFT, but not necessarily HEFT. Beyond the amplitudes, both theoretically and experimentally, we identify the cross section ratio of WL±ZLW^\pm_LZ_L and WL±hW^\pm_L h as a particularly promising observable to probe EW restoration and distinguish HEFT and SMEFT. Using current LHC measurements as well as projections for WL±hW^\pm_L h measurements, we project HL-LHC sensitivities to probing the linear vs. non-linear realizations of the EW symmetry.

Keywords

Cite

@article{arxiv.2605.08433,
  title  = {Electroweak Restoration: SMEFT and HEFT},
  author = {Ian M. Lewis and Zhen Liu and Ishmam Mahbub},
  journal= {arXiv preprint arXiv:2605.08433},
  year   = {2026}
}

Comments

19 pages, 3 figures

R2 v1 2026-07-01T12:58:58.985Z