Lorentz-symmetry violation in the electroweak sector: scattering processes in future e+ \, e- colliders

Abstract

We study CPT-odd non-minimal Lorentz-symmetry violating couplings in the electroweak sector modifying the interactions between leptons, gauge mediators and the Higgs boson. The tree-level (differential) cross sections for three important electroweak processes are discussed: e+ \, e- → Z \, H, e+ \, e- → Z \, Z and γ \, γ → W+ \, W-. By considering next-generation e+ \, e- colliders reaching center-of-mass energies at the TeV scale and the estimated improved precision for the measurements of the respective cross sections, we are able to project upper bounds on the purely time-like background 4-vector as strict as 10-5 \, GeV-1, in agreement with previous work on similar Lorentz-violating couplings.