Charting the Higgs self-coupling boundaries
Abstract
Could new physics first manifest itself in Higgs self-coupling measurements? In other words, how large could deviations in the Higgs self-coupling be, if other Higgs and electroweak measurements are compatible with Standard Model predictions? Using theoretical arguments supported by concrete models we derive a bound on the ratio of self-coupling to single-Higgs coupling deviations in ultraviolet completions of the Standard Model where parameters are not fine-tuned. Broadly speaking, a one-loop hierarchy is allowed. We thus stress that self-coupling measurements at the LHC and future colliders probe uncharted parameter space, presenting discovery potential even in the absence of emerging hints in single-Higgs coupling measurements. For instance, if other observables show less than two-sigma deviations by the end of the LHC programme, the Higgs self-coupling deviations could still exceed 200% in the models discussed, without introducing fine-tuning of ultraviolet parameters.
Cite
@article{arxiv.2209.00666,
title = {Charting the Higgs self-coupling boundaries},
author = {Gauthier Durieux and Matthew McCullough and Ennio Salvioni},
journal= {arXiv preprint arXiv:2209.00666},
year = {2023}
}
Comments
24 pages, 5 figures. v2: technical problem fixed in Fig 1, otherwise unchanged. v3: minor changes, matches the published version