Abstract
Effective field theories (EFT) are commonly used to parameterize effects of BSM physics in vector boson scattering (VBS). For Wilson coefficients which are large enough to produce presently observable effects, the validity range of the EFT represents only a fraction of the energy range covered by the LHC, however. In order to shed light on possible extrapolations into the high energy region, a class of UV-complete toy models, with extra SU(2) multiplets of scalars or of fermions with vector-like weak couplings, is considered. By calculating the Wilson coefficients up to energy-dimension eight, and full one-loop contributions to VBS due to the heavy multiplets, the EFT approach, with and without unitarization at high energy, is compared to the perturbative prediction. For high multiplicities, e.g. nonets of fermions, the toy models predict sizable effects in transversely polarized VBS, but only outside the validity range of the EFT. At lower energies, dimension-eight operators are needed for an adequate description of the models, providing another example that dimension-eight can be more important than dimension-six operators. A simplified VBFNLO implementation is used to estimate sensitivity of VBS to such BSM effects at the LHC. Unitarization captures qualitative features of the toy models at high energy but significantly underestimates signal cross sections in the threshold region of the new particles.
Highlights
Is shifting to precise comparisons between data and theoretical predictions and the search for possible signals beyond the Standard Model (SM)
Our toy model is closely related to new-physics solutions of problems that remain open in the SM, like an explanation of neutrino masses or dark matter: Large fermionic and scalar SU(2)L multiplets up to quintets that couple among each other and to the lepton sector of the SM are known to provide an explanation of neutrino masses [22,23,24,25,26,27,28]
Another reason for taking the (JR, MR) bounds derived from effective field theory (EFT) considerations only as indicative is the concern that the experimental EFT analyses, especially for the qqll contact terms and the anomalous quartic gauge couplings (aQGC), are largely based on data with dilepton or V V invariant masses above 1 TeV
Summary
A second consideration is whether the operators in the EFT Lagrangian are loop induced or whether they may occur due to tree level effects of the underlying UV-complete model. While terms such as fS0 in Eq (1) can arise from tree level scalar exchange in e.g. a two-Higgs-doublet model, the appearance of field strength tensors in the effective Lagrangian generally points to a loop origin of the effective interaction. Wilson coefficients of dimension-8 operators, which are large enough to be observable in present data, will produce scattering amplitudes which exceed unitarity bounds within the energy range of the LHC.
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